LOG file for integration channel /P0_uux_emep/all_G1_1, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       43759
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           1
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,   3157
  with seed                   48
 Ranmar initialization seeds       30233       12580
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.321874D+04 0.321874D+04  1.00
 muF1, muF1_reference: 0.321874D+04 0.321874D+04  1.00
 muF2, muF2_reference: 0.321874D+04 0.321874D+04  1.00
 QES,  QES_reference:  0.321874D+04 0.321874D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6974082783275791E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4077548612802399E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4163453224186959E-005           OLP:   -1.4163453224186970E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1511579576345096E-006           OLP:   -5.1511579576345748E-006
  FINITE:
           OLP:   -9.4893375738732853E-004
           BORN:    4.0818490293633167E-003
  MOMENTA (Exyzm): 
           1   2409.6804149095838        0.0000000000000000        0.0000000000000000        2409.6804149095838        0.0000000000000000     
           2   2409.6804149095838       -0.0000000000000000       -0.0000000000000000       -2409.6804149095838        0.0000000000000000     
           3   2409.6804149095838       -1848.7089127422712       -803.23550813678582        1320.4725579936728        0.0000000000000000     
           4   2409.6804149095838        1848.7089127422712        803.23550813678582       -1320.4725579936728        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4163453224186959E-005           OLP:   -1.4163453224186970E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1511579576345096E-006           OLP:   -5.1511579576345748E-006
ABS integral  = 0.8923E-06  +/-  0.1767E-08  (   0.198 %)
Integral      = 0.5188E-06  +/-  0.2016E-08  (   0.389 %)
Virtual       = 0.2846E-08  +/-  0.1045E-08  (  36.713 %)
Virtual ratio = -.1942E+00  +/-  0.4132E-03  (   0.213 %)
ABS virtual   = 0.4836E-06  +/-  0.8208E-09  (   0.170 %)
Born          = 0.1919E-05  +/-  0.2675E-08  (   0.139 %)
V  2          = 0.2846E-08  +/-  0.1045E-08  (  36.713 %)
B  2          = 0.1919E-05  +/-  0.2675E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8923E-06  +/-  0.1767E-08  (   0.198 %)
accumulated results Integral      = 0.5188E-06  +/-  0.2016E-08  (   0.389 %)
accumulated results Virtual       = 0.2846E-08  +/-  0.1045E-08  (  36.713 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4132E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8208E-09  (   0.170 %)
accumulated results Born          = 0.1919E-05  +/-  0.2675E-08  (   0.139 %)
accumulated results V  2          = 0.2846E-08  +/-  0.1045E-08  (  36.713 %)
accumulated results B  2          = 0.1919E-05  +/-  0.2675E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203337    23146  0.3263E-06  0.1859E-06  0.1000E+01
channel    2 :     1 T   209171    24358  0.3312E-06  0.2007E-06  0.9880E+00
channel    3 :     2 T    71904     8697  0.1157E-06  0.6237E-07  0.9788E+00
channel    4 :     2 T    75459     9333  0.1191E-06  0.6977E-07  0.9118E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9230000933447367E-007  +/-   1.7671061194611514E-009
 Final result:   5.1882535466715944E-007  +/-   2.0159329230493400E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408239
   Stability unknown:                                          0
   Stable PS point:                                       408239
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408239
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408239
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23923945    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.97902775    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.42667818    
 Time spent in Integrated_CT :    9.18237305    
 Time spent in Virtuals :    574.034973    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.38654470    
 Time spent in N1body_prefactor :   0.619198084    
 Time spent in Adding_alphas_pdf :    10.5429106    
 Time spent in Reweight_scale :    39.2249680    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7753811    
 Time spent in Applying_cuts :    4.96299982    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9650078    
 Time spent in Other_tasks :    21.7310181    
 Time spent in Total :    734.070374    
Time in seconds: 742



LOG file for integration channel /P0_uux_emep/all_G1_2, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18263
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           2
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,   6314
  with seed                   48
 Ranmar initialization seeds       30233       15737
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.415490D+04 0.415490D+04  1.00
 muF1, muF1_reference: 0.415490D+04 0.415490D+04  1.00
 muF2, muF2_reference: 0.415490D+04 0.415490D+04  1.00
 QES,  QES_reference:  0.415490D+04 0.415490D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5116359825363355E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3623677197884846E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4372295264169269E-005           OLP:   -1.4372295264169279E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.7738829998704941E-006           OLP:   -4.7738829998705102E-006
  FINITE:
           OLP:   -1.0064562552663183E-003
           BORN:    4.1420364472690213E-003
  MOMENTA (Exyzm): 
           1   2574.5531571283618        0.0000000000000000        0.0000000000000000        2574.5531571283618        0.0000000000000000     
           2   2574.5531571283618       -0.0000000000000000       -0.0000000000000000       -2574.5531571283618        0.0000000000000000     
           3   2574.5531571283618       -2108.3191000174611       -325.51297745317396        1441.3035186562017        0.0000000000000000     
           4   2574.5531571283618        2108.3191000174611        325.51297745317396       -1441.3035186562017        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4372295264169269E-005           OLP:   -1.4372295264169279E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.7738829998704966E-006           OLP:   -4.7738829998705102E-006
ABS integral  = 0.8974E-06  +/-  0.1876E-08  (   0.209 %)
Integral      = 0.5162E-06  +/-  0.2117E-08  (   0.410 %)
Virtual       = -.1881E-09  +/-  0.1048E-08  ( 557.295 %)
Virtual ratio = -.1951E+00  +/-  0.4131E-03  (   0.212 %)
ABS virtual   = 0.4852E-06  +/-  0.8239E-09  (   0.170 %)
Born          = 0.1924E-05  +/-  0.2679E-08  (   0.139 %)
V  2          = -.1881E-09  +/-  0.1048E-08  ( 557.295 %)
B  2          = 0.1924E-05  +/-  0.2679E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8974E-06  +/-  0.1876E-08  (   0.209 %)
accumulated results Integral      = 0.5162E-06  +/-  0.2117E-08  (   0.410 %)
accumulated results Virtual       = -.1881E-09  +/-  0.1048E-08  ( 557.295 %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4131E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4852E-06  +/-  0.8239E-09  (   0.170 %)
accumulated results Born          = 0.1924E-05  +/-  0.2679E-08  (   0.139 %)
accumulated results V  2          = -.1881E-09  +/-  0.1048E-08  ( 557.295 %)
accumulated results B  2          = 0.1924E-05  +/-  0.2679E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202406    23146  0.3263E-06  0.1851E-06  0.9853E+00
channel    2 :     1 T   208770    24358  0.3331E-06  0.2017E-06  0.9135E+00
channel    3 :     2 T    72807     8697  0.1173E-06  0.6198E-07  0.9827E+00
channel    4 :     2 T    75894     9333  0.1206E-06  0.6742E-07  0.8870E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9736327689359240E-007  +/-   1.8761006011452464E-009
 Final result:   5.1619274921598449E-007  +/-   2.1171034039585583E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408861
   Stability unknown:                                          0
   Stable PS point:                                       408861
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408861
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408861
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.73503649    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.34711456    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.49923277    
 Time spent in Integrated_CT :    11.2736816    
 Time spent in Virtuals :    731.262878    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.0440502    
 Time spent in N1body_prefactor :   0.894999981    
 Time spent in Adding_alphas_pdf :    12.9800406    
 Time spent in Reweight_scale :    56.1993713    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.8936653    
 Time spent in Applying_cuts :    7.35016251    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    57.4624290    
 Time spent in Other_tasks :    29.5538940    
 Time spent in Total :    953.496582    
Time in seconds: 957



LOG file for integration channel /P0_uux_emep/all_G1_3, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42754
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           3
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,   9471
  with seed                   48
 Ranmar initialization seeds       30233       18894
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438823D+04 0.438823D+04  1.00
 muF1, muF1_reference: 0.438823D+04 0.438823D+04  1.00
 muF2, muF2_reference: 0.438823D+04 0.438823D+04  1.00
 QES,  QES_reference:  0.438823D+04 0.438823D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4730340253759311E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4087766405876818E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4243293693903553E-005           OLP:   -1.4243293693903574E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0094366330660297E-006           OLP:   -5.0094366330659653E-006
  FINITE:
           OLP:   -9.5562089672630293E-004
           BORN:    4.1048587247150166E-003
  MOMENTA (Exyzm): 
           1   2406.1161629906769        0.0000000000000000        0.0000000000000000        2406.1161629906769        0.0000000000000000     
           2   2406.1161629906769       -0.0000000000000000       -0.0000000000000000       -2406.1161629906769        0.0000000000000000     
           3   2406.1161629906769       -1086.9866518869901       -1685.3826821700816        1329.4134883720983        0.0000000000000000     
           4   2406.1161629906769        1086.9866518869901        1685.3826821700816       -1329.4134883720983        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4243293693903553E-005           OLP:   -1.4243293693903574E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0094366330660297E-006           OLP:   -5.0094366330659653E-006
ABS integral  = 0.8928E-06  +/-  0.1762E-08  (   0.197 %)
Integral      = 0.5159E-06  +/-  0.2013E-08  (   0.390 %)
Virtual       = -.1944E-09  +/-  0.1045E-08  ( 537.375 %)
Virtual ratio = -.1953E+00  +/-  0.4129E-03  (   0.211 %)
ABS virtual   = 0.4831E-06  +/-  0.8213E-09  (   0.170 %)
Born          = 0.1918E-05  +/-  0.2673E-08  (   0.139 %)
V  2          = -.1944E-09  +/-  0.1045E-08  ( 537.375 %)
B  2          = 0.1918E-05  +/-  0.2673E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8928E-06  +/-  0.1762E-08  (   0.197 %)
accumulated results Integral      = 0.5159E-06  +/-  0.2013E-08  (   0.390 %)
accumulated results Virtual       = -.1944E-09  +/-  0.1045E-08  ( 537.375 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4129E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4831E-06  +/-  0.8213E-09  (   0.170 %)
accumulated results Born          = 0.1918E-05  +/-  0.2673E-08  (   0.139 %)
accumulated results V  2          = -.1944E-09  +/-  0.1045E-08  ( 537.375 %)
accumulated results B  2          = 0.1918E-05  +/-  0.2673E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202753    23146  0.3254E-06  0.1858E-06  0.1000E+01
channel    2 :     1 T   208949    24358  0.3313E-06  0.2001E-06  0.9843E+00
channel    3 :     2 T    72877     8697  0.1169E-06  0.6310E-07  0.9953E+00
channel    4 :     2 T    75292     9333  0.1192E-06  0.6699E-07  0.9202E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9277318258795836E-007  +/-   1.7615393858085024E-009
 Final result:   5.1591035064081162E-007  +/-   2.0127688825884018E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408631
   Stability unknown:                                          0
   Stable PS point:                                       408631
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408631
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408631
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21572721    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.76006174    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.23207140    
 Time spent in Integrated_CT :    8.94177246    
 Time spent in Virtuals :    567.910583    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.27074623    
 Time spent in N1body_prefactor :   0.634018302    
 Time spent in Adding_alphas_pdf :    10.3952847    
 Time spent in Reweight_scale :    39.2379150    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7660017    
 Time spent in Applying_cuts :    4.72037220    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.9489861    
 Time spent in Other_tasks :    20.1463623    
 Time spent in Total :    722.179932    
Time in seconds: 732



LOG file for integration channel /P0_uux_emep/all_G1_4, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       43001
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           4
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  12628
  with seed                   48
 Ranmar initialization seeds       30233       22051
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439834D+04 0.439834D+04  1.00
 muF1, muF1_reference: 0.439834D+04 0.439834D+04  1.00
 muF2, muF2_reference: 0.439834D+04 0.439834D+04  1.00
 QES,  QES_reference:  0.439834D+04 0.439834D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4714174505330841E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4064393329092718E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4234050955144892E-005           OLP:   -1.4234050955144876E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0259224882666424E-006           OLP:   -5.0259224882638828E-006
  FINITE:
           OLP:   -9.5664723609658795E-004
           BORN:    4.1021950053781054E-003
  MOMENTA (Exyzm): 
           1   2414.2786362667443        0.0000000000000000        0.0000000000000000        2414.2786362667443        0.0000000000000000     
           2   2414.2786362667443       -0.0000000000000000       -0.0000000000000000       -2414.2786362667443        0.0000000000000000     
           3   2414.2786362667443       -1483.3186293296708       -1361.0717065075753        1332.6631184069415        0.0000000000000000     
           4   2414.2786362667443        1483.3186293296708        1361.0717065075753       -1332.6631184069415        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4234050955144892E-005           OLP:   -1.4234050955144876E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0259224882666467E-006           OLP:   -5.0259224882638828E-006
ABS integral  = 0.8940E-06  +/-  0.1855E-08  (   0.208 %)
Integral      = 0.5159E-06  +/-  0.2096E-08  (   0.406 %)
Virtual       = 0.1501E-09  +/-  0.1042E-08  ( 693.684 %)
Virtual ratio = -.1954E+00  +/-  0.4132E-03  (   0.211 %)
ABS virtual   = 0.4831E-06  +/-  0.8173E-09  (   0.169 %)
Born          = 0.1917E-05  +/-  0.2664E-08  (   0.139 %)
V  2          = 0.1501E-09  +/-  0.1042E-08  ( 693.684 %)
B  2          = 0.1917E-05  +/-  0.2664E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8940E-06  +/-  0.1855E-08  (   0.208 %)
accumulated results Integral      = 0.5159E-06  +/-  0.2096E-08  (   0.406 %)
accumulated results Virtual       = 0.1501E-09  +/-  0.1042E-08  ( 693.684 %)
accumulated results Virtual ratio = -.1954E+00  +/-  0.4132E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4831E-06  +/-  0.8173E-09  (   0.169 %)
accumulated results Born          = 0.1917E-05  +/-  0.2664E-08  (   0.139 %)
accumulated results V  2          = 0.1501E-09  +/-  0.1042E-08  ( 693.684 %)
accumulated results B  2          = 0.1917E-05  +/-  0.2664E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202471    23146  0.3242E-06  0.1847E-06  0.1000E+01
channel    2 :     1 T   209099    24358  0.3331E-06  0.1996E-06  0.9224E+00
channel    3 :     2 T    72417     8697  0.1155E-06  0.6252E-07  0.9599E+00
channel    4 :     2 T    75890     9333  0.1212E-06  0.6917E-07  0.8400E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9396872236364975E-007  +/-   1.8551313683604700E-009
 Final result:   5.1592450720932224E-007  +/-   2.0960723375910965E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408555
   Stability unknown:                                          0
   Stable PS point:                                       408555
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408555
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408555
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.28272295    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.76491785    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.17058372    
 Time spent in Integrated_CT :    9.22790527    
 Time spent in Virtuals :    602.700012    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.46783447    
 Time spent in N1body_prefactor :   0.597181797    
 Time spent in Adding_alphas_pdf :    10.1933765    
 Time spent in Reweight_scale :    38.4888382    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1098518    
 Time spent in Applying_cuts :    4.92784691    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.6636505    
 Time spent in Other_tasks :    20.5348511    
 Time spent in Total :    759.129517    
Time in seconds: 765



LOG file for integration channel /P0_uux_emep/all_G1_5, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       43000
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           5
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  15785
  with seed                   48
 Ranmar initialization seeds       30233       25208
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436147D+04 0.436147D+04  1.00
 muF1, muF1_reference: 0.436147D+04 0.436147D+04  1.00
 muF2, muF2_reference: 0.436147D+04 0.436147D+04  1.00
 QES,  QES_reference:  0.436147D+04 0.436147D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4773368922247480E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4074650222963612E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4264270608719263E-005           OLP:   -1.4264270608719238E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9717370003931924E-006           OLP:   -4.9717370003932229E-006
  FINITE:
           OLP:   -9.5866296502304920E-004
           BORN:    4.1109041853822862E-003
  MOMENTA (Exyzm): 
           1   2410.6926022229522        0.0000000000000000        0.0000000000000000        2410.6926022229522        0.0000000000000000     
           2   2410.6926022229522       -0.0000000000000000       -0.0000000000000000       -2410.6926022229522        0.0000000000000000     
           3   2410.6926022229522       -1908.2362141043452       -623.19016822090873        1334.8061236846279        0.0000000000000000     
           4   2410.6926022229522        1908.2362141043452        623.19016822090873       -1334.8061236846279        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4264270608719263E-005           OLP:   -1.4264270608719238E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9717370003931933E-006           OLP:   -4.9717370003932229E-006
ABS integral  = 0.8906E-06  +/-  0.1776E-08  (   0.199 %)
Integral      = 0.5149E-06  +/-  0.2024E-08  (   0.393 %)
Virtual       = 0.2759E-09  +/-  0.1040E-08  ( 376.801 %)
Virtual ratio = -.1946E+00  +/-  0.4130E-03  (   0.212 %)
ABS virtual   = 0.4828E-06  +/-  0.8152E-09  (   0.169 %)
Born          = 0.1917E-05  +/-  0.2661E-08  (   0.139 %)
V  2          = 0.2759E-09  +/-  0.1040E-08  ( 376.801 %)
B  2          = 0.1917E-05  +/-  0.2661E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8906E-06  +/-  0.1776E-08  (   0.199 %)
accumulated results Integral      = 0.5149E-06  +/-  0.2024E-08  (   0.393 %)
accumulated results Virtual       = 0.2759E-09  +/-  0.1040E-08  ( 376.801 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4130E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8152E-09  (   0.169 %)
accumulated results Born          = 0.1917E-05  +/-  0.2661E-08  (   0.139 %)
accumulated results V  2          = 0.2759E-09  +/-  0.1040E-08  ( 376.801 %)
accumulated results B  2          = 0.1917E-05  +/-  0.2661E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202833    23146  0.3253E-06  0.1870E-06  0.1000E+01
channel    2 :     1 T   208940    24358  0.3295E-06  0.1982E-06  0.9900E+00
channel    3 :     2 T    72665     8697  0.1166E-06  0.6289E-07  0.9856E+00
channel    4 :     2 T    75435     9333  0.1192E-06  0.6683E-07  0.8795E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9055582359108684E-007  +/-   1.7760675990975403E-009
 Final result:   5.1492138413333781E-007  +/-   2.0242015044953641E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408669
   Stability unknown:                                          0
   Stable PS point:                                       408669
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408669
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408669
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22970033    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.60902643    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.10937881    
 Time spent in Integrated_CT :    9.16986084    
 Time spent in Virtuals :    604.235107    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.41448259    
 Time spent in N1body_prefactor :   0.598657906    
 Time spent in Adding_alphas_pdf :    10.1726112    
 Time spent in Reweight_scale :    38.3887100    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3517265    
 Time spent in Applying_cuts :    4.86799192    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.4455414    
 Time spent in Other_tasks :    20.4830322    
 Time spent in Total :    760.075867    
Time in seconds: 765



LOG file for integration channel /P0_uux_emep/all_G1_6, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42999
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           6
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  18942
  with seed                   48
 Ranmar initialization seeds       30233       28365
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434432D+04 0.434432D+04  1.00
 muF1, muF1_reference: 0.434432D+04 0.434432D+04  1.00
 muF2, muF2_reference: 0.434432D+04 0.434432D+04  1.00
 QES,  QES_reference:  0.434432D+04 0.434432D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4801098825932874E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4069999640689443E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
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 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4274390468069391E-005           OLP:   -1.4274390468069381E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9534895979333638E-006           OLP:   -4.9534895979214053E-006
  FINITE:
           OLP:   -9.5999594053247975E-004
           BORN:    4.1138206872700514E-003
  MOMENTA (Exyzm): 
           1   2412.3177584839564        0.0000000000000000        0.0000000000000000        2412.3177584839564        0.0000000000000000     
           2   2412.3177584839564       -0.0000000000000000       -0.0000000000000000       -2412.3177584839564        0.0000000000000000     
           3   2412.3177584839564       -1430.9055984963081       -1408.5393833562302        1337.0874846558968        0.0000000000000000     
           4   2412.3177584839564        1430.9055984963081        1408.5393833562302       -1337.0874846558968        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4274390468069391E-005           OLP:   -1.4274390468069381E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9534895979333680E-006           OLP:   -4.9534895979214053E-006
ABS integral  = 0.8952E-06  +/-  0.1815E-08  (   0.203 %)
Integral      = 0.5139E-06  +/-  0.2062E-08  (   0.401 %)
Virtual       = 0.2797E-09  +/-  0.1050E-08  ( 375.422 %)
Virtual ratio = -.1953E+00  +/-  0.4136E-03  (   0.212 %)
ABS virtual   = 0.4840E-06  +/-  0.8270E-09  (   0.171 %)
Born          = 0.1919E-05  +/-  0.2678E-08  (   0.140 %)
V  2          = 0.2797E-09  +/-  0.1050E-08  ( 375.422 %)
B  2          = 0.1919E-05  +/-  0.2678E-08  (   0.140 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8952E-06  +/-  0.1815E-08  (   0.203 %)
accumulated results Integral      = 0.5139E-06  +/-  0.2062E-08  (   0.401 %)
accumulated results Virtual       = 0.2797E-09  +/-  0.1050E-08  ( 375.422 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4136E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8270E-09  (   0.171 %)
accumulated results Born          = 0.1919E-05  +/-  0.2678E-08  (   0.140 %)
accumulated results V  2          = 0.2797E-09  +/-  0.1050E-08  ( 375.422 %)
accumulated results B  2          = 0.1919E-05  +/-  0.2678E-08  (   0.140 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202792    23146  0.3275E-06  0.1854E-06  0.9832E+00
channel    2 :     1 T   209279    24358  0.3317E-06  0.1984E-06  0.9701E+00
channel    3 :     2 T    72375     8697  0.1167E-06  0.6273E-07  0.9755E+00
channel    4 :     2 T    75435     9333  0.1193E-06  0.6743E-07  0.9315E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9523934191245767E-007  +/-   1.8147214560117539E-009
 Final result:   5.1393088522613046E-007  +/-   2.0622678180028642E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408425
   Stability unknown:                                          0
   Stable PS point:                                       408425
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408425
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408425
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24458098    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.63394880    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.09384537    
 Time spent in Integrated_CT :    9.22857666    
 Time spent in Virtuals :    603.259583    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.39976645    
 Time spent in N1body_prefactor :   0.609581947    
 Time spent in Adding_alphas_pdf :    10.2901077    
 Time spent in Reweight_scale :    38.2614594    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2540283    
 Time spent in Applying_cuts :    4.82441187    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.3362999    
 Time spent in Other_tasks :    20.8021851    
 Time spent in Total :    759.238342    
Time in seconds: 765



LOG file for integration channel /P0_uux_emep/all_G1_7, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42994
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           7
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  22099
  with seed                   48
 Ranmar initialization seeds       30233        1441
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.321524D+04 0.321524D+04  1.00
 muF1, muF1_reference: 0.321524D+04 0.321524D+04  1.00
 muF2, muF2_reference: 0.321524D+04 0.321524D+04  1.00
 QES,  QES_reference:  0.321524D+04 0.321524D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6982213494150326E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4082964646909361E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4168917718371981E-005           OLP:   -1.4168917718371996E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1415507807769679E-006           OLP:   -5.1415507807769933E-006
  FINITE:
           OLP:   -9.4901086171803983E-004
           BORN:    4.0834238741368359E-003
  MOMENTA (Exyzm): 
           1   2407.7903659266813        0.0000000000000000        0.0000000000000000        2407.7903659266813        0.0000000000000000     
           2   2407.7903659266813       -0.0000000000000000       -0.0000000000000000       -2407.7903659266813        0.0000000000000000     
           3   2407.7903659266813       -2013.5929322110067       -3.6973493614889130        1320.1834263491269        0.0000000000000000     
           4   2407.7903659266813        2013.5929322110067        3.6973493614889130       -1320.1834263491269        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4168917718371981E-005           OLP:   -1.4168917718371996E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1415507807769645E-006           OLP:   -5.1415507807769933E-006
ABS integral  = 0.8963E-06  +/-  0.1850E-08  (   0.206 %)
Integral      = 0.5147E-06  +/-  0.2094E-08  (   0.407 %)
Virtual       = 0.2131E-08  +/-  0.1049E-08  (  49.224 %)
Virtual ratio = -.1945E+00  +/-  0.4133E-03  (   0.213 %)
ABS virtual   = 0.4844E-06  +/-  0.8253E-09  (   0.170 %)
Born          = 0.1919E-05  +/-  0.2673E-08  (   0.139 %)
V  2          = 0.2131E-08  +/-  0.1049E-08  (  49.224 %)
B  2          = 0.1919E-05  +/-  0.2673E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8963E-06  +/-  0.1850E-08  (   0.206 %)
accumulated results Integral      = 0.5147E-06  +/-  0.2094E-08  (   0.407 %)
accumulated results Virtual       = 0.2131E-08  +/-  0.1049E-08  (  49.224 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4133E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8253E-09  (   0.170 %)
accumulated results Born          = 0.1919E-05  +/-  0.2673E-08  (   0.139 %)
accumulated results V  2          = 0.2131E-08  +/-  0.1049E-08  (  49.224 %)
accumulated results B  2          = 0.1919E-05  +/-  0.2673E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202384    23146  0.3253E-06  0.1843E-06  0.9863E+00
channel    2 :     1 T   209553    24358  0.3336E-06  0.1991E-06  0.9311E+00
channel    3 :     2 T    72775     8697  0.1176E-06  0.6206E-07  0.9895E+00
channel    4 :     2 T    75158     9333  0.1198E-06  0.6925E-07  0.9047E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9627576114981361E-007  +/-   1.8503089140796692E-009
 Final result:   5.1466569735026517E-007  +/-   2.0941213129751656E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408624
   Stability unknown:                                          0
   Stable PS point:                                       408624
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408624
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408624
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23781300    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.63882017    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.15176773    
 Time spent in Integrated_CT :    9.18170166    
 Time spent in Virtuals :    603.133179    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.41611052    
 Time spent in N1body_prefactor :   0.601396799    
 Time spent in Adding_alphas_pdf :    10.2627373    
 Time spent in Reweight_scale :    38.5244751    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2672558    
 Time spent in Applying_cuts :    4.85534859    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.8442993    
 Time spent in Other_tasks :    20.6499634    
 Time spent in Total :    759.764893    
Time in seconds: 765



LOG file for integration channel /P0_uux_emep/all_G1_8, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       43007
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           8
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  25256
  with seed                   48
 Ranmar initialization seeds       30233        4598
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437530D+04 0.437530D+04  1.00
 muF1, muF1_reference: 0.437530D+04 0.437530D+04  1.00
 muF2, muF2_reference: 0.437530D+04 0.437530D+04  1.00
 QES,  QES_reference:  0.437530D+04 0.437530D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4751099718076239E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4092014109320647E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4143426427243166E-005           OLP:   -1.4143426427243175E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1863446460837811E-006           OLP:   -5.1863446460838099E-006
  FINITE:
           OLP:   -9.4588621538679765E-004
           BORN:    4.0760773887632213E-003
  MOMENTA (Exyzm): 
           1   2404.6362985357487        0.0000000000000000        0.0000000000000000        2404.6362985357487        0.0000000000000000     
           2   2404.6362985357487       -0.0000000000000000       -0.0000000000000000       -2404.6362985357487        0.0000000000000000     
           3   2404.6362985357487       -1791.9159067463404       -917.69759868648532        1314.9692881395390        0.0000000000000000     
           4   2404.6362985357487        1791.9159067463404        917.69759868648532       -1314.9692881395390        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4143426427243166E-005           OLP:   -1.4143426427243175E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1863446460837819E-006           OLP:   -5.1863446460838099E-006
ABS integral  = 0.8936E-06  +/-  0.1818E-08  (   0.203 %)
Integral      = 0.5131E-06  +/-  0.2064E-08  (   0.402 %)
Virtual       = -.7584E-09  +/-  0.1047E-08  ( 138.105 %)
Virtual ratio = -.1960E+00  +/-  0.4129E-03  (   0.211 %)
ABS virtual   = 0.4846E-06  +/-  0.8231E-09  (   0.170 %)
Born          = 0.1924E-05  +/-  0.2682E-08  (   0.139 %)
V  2          = -.7584E-09  +/-  0.1047E-08  ( 138.105 %)
B  2          = 0.1924E-05  +/-  0.2682E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8936E-06  +/-  0.1818E-08  (   0.203 %)
accumulated results Integral      = 0.5131E-06  +/-  0.2064E-08  (   0.402 %)
accumulated results Virtual       = -.7584E-09  +/-  0.1047E-08  ( 138.105 %)
accumulated results Virtual ratio = -.1960E+00  +/-  0.4129E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4846E-06  +/-  0.8231E-09  (   0.170 %)
accumulated results Born          = 0.1924E-05  +/-  0.2682E-08  (   0.139 %)
accumulated results V  2          = -.7584E-09  +/-  0.1047E-08  ( 138.105 %)
accumulated results B  2          = 0.1924E-05  +/-  0.2682E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203384    23146  0.3261E-06  0.1858E-06  0.1000E+01
channel    2 :     1 T   208600    24358  0.3309E-06  0.1978E-06  0.9871E+00
channel    3 :     2 T    72213     8697  0.1162E-06  0.6194E-07  0.1000E+01
channel    4 :     2 T    75676     9333  0.1204E-06  0.6752E-07  0.8036E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9361764813627381E-007  +/-   1.8180761669319119E-009
 Final result:   5.1307946832561097E-007  +/-   2.0643439265033631E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409027
   Stability unknown:                                          0
   Stable PS point:                                       409027
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409027
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409027
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25641203    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.75019026    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.16912174    
 Time spent in Integrated_CT :    9.11303711    
 Time spent in Virtuals :    603.375000    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.41163397    
 Time spent in N1body_prefactor :   0.607583404    
 Time spent in Adding_alphas_pdf :    10.2704296    
 Time spent in Reweight_scale :    38.8087921    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4454355    
 Time spent in Applying_cuts :    5.00811863    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.7733765    
 Time spent in Other_tasks :    20.4101562    
 Time spent in Total :    760.399292    
Time in seconds: 765



LOG file for integration channel /P0_uux_emep/all_G1_9, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       43005
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           9
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  28413
  with seed                   48
 Ranmar initialization seeds       30233        7755
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424864D+04 0.424864D+04  1.00
 muF1, muF1_reference: 0.424864D+04 0.424864D+04  1.00
 muF2, muF2_reference: 0.424864D+04 0.424864D+04  1.00
 QES,  QES_reference:  0.424864D+04 0.424864D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4958265268006488E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4085303240159203E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4235056691462336E-005           OLP:   -1.4235056691462344E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0241733761193335E-006           OLP:   -5.0241733761158488E-006
  FINITE:
           OLP:   -9.5504515216316712E-004
           BORN:    4.1024848544527750E-003
  MOMENTA (Exyzm): 
           1   2406.9748077031359        0.0000000000000000        0.0000000000000000        2406.9748077031359        0.0000000000000000     
           2   2406.9748077031359       -0.0000000000000000       -0.0000000000000000       -2406.9748077031359        0.0000000000000000     
           3   2406.9748077031359       -1481.0206392095190       -1354.4327036278519        1328.7654580460480        0.0000000000000000     
           4   2406.9748077031359        1481.0206392095190        1354.4327036278519       -1328.7654580460480        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4235056691462336E-005           OLP:   -1.4235056691462344E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0241733761193369E-006           OLP:   -5.0241733761158488E-006
ABS integral  = 0.8922E-06  +/-  0.2002E-08  (   0.224 %)
Integral      = 0.5111E-06  +/-  0.2228E-08  (   0.436 %)
Virtual       = -.2161E-08  +/-  0.1044E-08  (  48.278 %)
Virtual ratio = -.1957E+00  +/-  0.4132E-03  (   0.211 %)
ABS virtual   = 0.4825E-06  +/-  0.8205E-09  (   0.170 %)
Born          = 0.1917E-05  +/-  0.2665E-08  (   0.139 %)
V  2          = -.2161E-08  +/-  0.1044E-08  (  48.278 %)
B  2          = 0.1917E-05  +/-  0.2665E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8922E-06  +/-  0.2002E-08  (   0.224 %)
accumulated results Integral      = 0.5111E-06  +/-  0.2228E-08  (   0.436 %)
accumulated results Virtual       = -.2161E-08  +/-  0.1044E-08  (  48.278 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4132E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4825E-06  +/-  0.8205E-09  (   0.170 %)
accumulated results Born          = 0.1917E-05  +/-  0.2665E-08  (   0.139 %)
accumulated results V  2          = -.2161E-08  +/-  0.1044E-08  (  48.278 %)
accumulated results B  2          = 0.1917E-05  +/-  0.2665E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203205    23146  0.3263E-06  0.1854E-06  0.1000E+01
channel    2 :     1 T   209091    24358  0.3309E-06  0.1978E-06  0.9451E+00
channel    3 :     2 T    72132     8697  0.1163E-06  0.6062E-07  0.6422E+00
channel    4 :     2 T    75446     9333  0.1186E-06  0.6731E-07  0.9322E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9220972006243184E-007  +/-   2.0019365154085583E-009
 Final result:   5.1105477256970675E-007  +/-   2.2277965493292689E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408402
   Stability unknown:                                          0
   Stable PS point:                                       408402
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408402
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408402
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25402439    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.70008039    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.20190334    
 Time spent in Integrated_CT :    9.16375732    
 Time spent in Virtuals :    603.570496    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.47450113    
 Time spent in N1body_prefactor :   0.599905550    
 Time spent in Adding_alphas_pdf :    10.2933722    
 Time spent in Reweight_scale :    38.7601891    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4985800    
 Time spent in Applying_cuts :    4.87028694    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.7691002    
 Time spent in Other_tasks :    20.4174194    
 Time spent in Total :    760.573669    
Time in seconds: 765



LOG file for integration channel /P0_uux_emep/all_G1_10, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42998
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          10
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  31570
  with seed                   48
 Ranmar initialization seeds       30233       10912
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436900D+04 0.436900D+04  1.00
 muF1, muF1_reference: 0.436900D+04 0.436900D+04  1.00
 muF2, muF2_reference: 0.436900D+04 0.436900D+04  1.00
 QES,  QES_reference:  0.436900D+04 0.436900D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4761225357609984E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3887344992222007E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4262836596254158E-005           OLP:   -1.4262836596254149E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9738864248999613E-006           OLP:   -4.9738864249001104E-006
  FINITE:
           OLP:   -9.7386211646676747E-004
           BORN:    4.1104909088814125E-003
  MOMENTA (Exyzm): 
           1   2477.1938756995692        0.0000000000000000        0.0000000000000000        2477.1938756995692        0.0000000000000000     
           2   2477.1938756995692       -0.0000000000000000       -0.0000000000000000       -2477.1938756995692        0.0000000000000000     
           3   2477.1938756995692       -2057.2216899013738       -153.09815590671406        1371.4552019882942        0.0000000000000000     
           4   2477.1938756995692        2057.2216899013738        153.09815590671406       -1371.4552019882942        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4262836596254158E-005           OLP:   -1.4262836596254149E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9738864248999613E-006           OLP:   -4.9738864249001104E-006
ABS integral  = 0.8964E-06  +/-  0.1827E-08  (   0.204 %)
Integral      = 0.5150E-06  +/-  0.2074E-08  (   0.403 %)
Virtual       = 0.7848E-09  +/-  0.1047E-08  ( 133.401 %)
Virtual ratio = -.1951E+00  +/-  0.4133E-03  (   0.212 %)
ABS virtual   = 0.4838E-06  +/-  0.8234E-09  (   0.170 %)
Born          = 0.1918E-05  +/-  0.2667E-08  (   0.139 %)
V  2          = 0.7848E-09  +/-  0.1047E-08  ( 133.401 %)
B  2          = 0.1918E-05  +/-  0.2667E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8964E-06  +/-  0.1827E-08  (   0.204 %)
accumulated results Integral      = 0.5150E-06  +/-  0.2074E-08  (   0.403 %)
accumulated results Virtual       = 0.7848E-09  +/-  0.1047E-08  ( 133.401 %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4133E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8234E-09  (   0.170 %)
accumulated results Born          = 0.1918E-05  +/-  0.2667E-08  (   0.139 %)
accumulated results V  2          = 0.7848E-09  +/-  0.1047E-08  ( 133.401 %)
accumulated results B  2          = 0.1918E-05  +/-  0.2667E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202369    23146  0.3274E-06  0.1825E-06  0.9752E+00
channel    2 :     1 T   209543    24358  0.3322E-06  0.2008E-06  0.9963E+00
channel    3 :     2 T    72020     8697  0.1157E-06  0.6311E-07  0.9961E+00
channel    4 :     2 T    75940     9333  0.1211E-06  0.6858E-07  0.8386E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9644153773561743E-007  +/-   1.8273638974859692E-009
 Final result:   5.1503148918496259E-007  +/-   2.0738413335753144E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408542
   Stability unknown:                                          0
   Stable PS point:                                       408542
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408542
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408542
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19468164    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.70152712    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.31903172    
 Time spent in Integrated_CT :    8.94158936    
 Time spent in Virtuals :    564.319031    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.29995537    
 Time spent in N1body_prefactor :   0.621158481    
 Time spent in Adding_alphas_pdf :    10.4289112    
 Time spent in Reweight_scale :    39.1654930    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5629568    
 Time spent in Applying_cuts :    4.65188456    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0014420    
 Time spent in Other_tasks :    20.0269775    
 Time spent in Total :    718.234497    
Time in seconds: 728



LOG file for integration channel /P0_uux_emep/all_G1_11, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       43006
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          11
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  34727
  with seed                   48
 Ranmar initialization seeds       30233       14069
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.421400D+04 0.421400D+04  1.00
 muF1, muF1_reference: 0.421400D+04 0.421400D+04  1.00
 muF2, muF2_reference: 0.421400D+04 0.421400D+04  1.00
 QES,  QES_reference:  0.421400D+04 0.421400D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5016209822473590E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4086312950619196E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4205419199955581E-005           OLP:   -1.4205419199955581E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0769939042974430E-006           OLP:   -5.0769939042974498E-006
  FINITE:
           OLP:   -9.5217385326177705E-004
           BORN:    4.0939434511646968E-003
  MOMENTA (Exyzm): 
           1   2406.6227844687614        0.0000000000000000        0.0000000000000000        2406.6227844687614        0.0000000000000000     
           2   2406.6227844687614       -0.0000000000000000       -0.0000000000000000       -2406.6227844687614        0.0000000000000000     
           3   2406.6227844687614       -2007.3613029852950       -89.209449851414846        1324.5284066635045        0.0000000000000000     
           4   2406.6227844687614        2007.3613029852950        89.209449851414846       -1324.5284066635045        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4205419199955581E-005           OLP:   -1.4205419199955581E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0769939042974421E-006           OLP:   -5.0769939042974498E-006
ABS integral  = 0.8944E-06  +/-  0.1815E-08  (   0.203 %)
Integral      = 0.5149E-06  +/-  0.2061E-08  (   0.400 %)
Virtual       = -.3378E-09  +/-  0.1043E-08  ( 308.715 %)
Virtual ratio = -.1953E+00  +/-  0.4130E-03  (   0.211 %)
ABS virtual   = 0.4842E-06  +/-  0.8177E-09  (   0.169 %)
Born          = 0.1921E-05  +/-  0.2668E-08  (   0.139 %)
V  2          = -.3378E-09  +/-  0.1043E-08  ( 308.715 %)
B  2          = 0.1921E-05  +/-  0.2668E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8944E-06  +/-  0.1815E-08  (   0.203 %)
accumulated results Integral      = 0.5149E-06  +/-  0.2061E-08  (   0.400 %)
accumulated results Virtual       = -.3378E-09  +/-  0.1043E-08  ( 308.715 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4130E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4842E-06  +/-  0.8177E-09  (   0.169 %)
accumulated results Born          = 0.1921E-05  +/-  0.2668E-08  (   0.139 %)
accumulated results V  2          = -.3378E-09  +/-  0.1043E-08  ( 308.715 %)
accumulated results B  2          = 0.1921E-05  +/-  0.2668E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203015    23146  0.3259E-06  0.1832E-06  0.9702E+00
channel    2 :     1 T   208925    24358  0.3317E-06  0.2017E-06  0.9793E+00
channel    3 :     2 T    72581     8697  0.1166E-06  0.6171E-07  0.9635E+00
channel    4 :     2 T    75352     9333  0.1202E-06  0.6829E-07  0.9113E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9436720151981448E-007  +/-   1.8146931857422262E-009
 Final result:   5.1485426294710442E-007  +/-   2.0611553676551545E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408979
   Stability unknown:                                          0
   Stable PS point:                                       408979
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408979
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408979
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23834980    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.67305613    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.17380047    
 Time spent in Integrated_CT :    9.25561523    
 Time spent in Virtuals :    602.106079    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.48681879    
 Time spent in N1body_prefactor :   0.605197370    
 Time spent in Adding_alphas_pdf :    10.2993984    
 Time spent in Reweight_scale :    38.8085709    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3919744    
 Time spent in Applying_cuts :    4.90538788    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.7890854    
 Time spent in Other_tasks :    20.6960449    
 Time spent in Total :    759.429382    
Time in seconds: 765



LOG file for integration channel /P0_uux_emep/all_G1_12, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       43009
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          12
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  37884
  with seed                   48
 Ranmar initialization seeds       30233       17226
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.413921D+04 0.413921D+04  1.00
 muF1, muF1_reference: 0.413921D+04 0.413921D+04  1.00
 muF2, muF2_reference: 0.413921D+04 0.413921D+04  1.00
 QES,  QES_reference:  0.413921D+04 0.413921D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5143241852725112E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4070350159749720E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4195686540908703E-005           OLP:   -1.4195686540908688E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0942243941974566E-006           OLP:   -5.0942243941968281E-006
  FINITE:
           OLP:   -9.5254908433640192E-004
           BORN:    4.0911385388135348E-003
  MOMENTA (Exyzm): 
           1   2412.1952232378335        0.0000000000000000        0.0000000000000000        2412.1952232378335        0.0000000000000000     
           2   2412.1952232378335       -0.0000000000000000       -0.0000000000000000       -2412.1952232378335        0.0000000000000000     
           3   2412.1952232378335       -1594.8743508335560       -1231.2920563129055        1326.2659884523168        0.0000000000000000     
           4   2412.1952232378335        1594.8743508335560        1231.2920563129055       -1326.2659884523168        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4195686540908703E-005           OLP:   -1.4195686540908688E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0942243941974566E-006           OLP:   -5.0942243941968281E-006
ABS integral  = 0.8914E-06  +/-  0.2279E-08  (   0.256 %)
Integral      = 0.5114E-06  +/-  0.2479E-08  (   0.485 %)
Virtual       = -.2158E-08  +/-  0.1039E-08  (  48.154 %)
Virtual ratio = -.1957E+00  +/-  0.4134E-03  (   0.211 %)
ABS virtual   = 0.4825E-06  +/-  0.8147E-09  (   0.169 %)
Born          = 0.1917E-05  +/-  0.2659E-08  (   0.139 %)
V  2          = -.2158E-08  +/-  0.1039E-08  (  48.154 %)
B  2          = 0.1917E-05  +/-  0.2659E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8914E-06  +/-  0.2279E-08  (   0.256 %)
accumulated results Integral      = 0.5114E-06  +/-  0.2479E-08  (   0.485 %)
accumulated results Virtual       = -.2158E-08  +/-  0.1039E-08  (  48.154 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4134E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4825E-06  +/-  0.8147E-09  (   0.169 %)
accumulated results Born          = 0.1917E-05  +/-  0.2659E-08  (   0.139 %)
accumulated results V  2          = -.2158E-08  +/-  0.1039E-08  (  48.154 %)
accumulated results B  2          = 0.1917E-05  +/-  0.2659E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202977    23146  0.3254E-06  0.1852E-06  0.9573E+00
channel    2 :     1 T   209244    24358  0.3311E-06  0.1957E-06  0.6411E+00
channel    3 :     2 T    72313     8697  0.1159E-06  0.6201E-07  0.9983E+00
channel    4 :     2 T    75335     9333  0.1190E-06  0.6851E-07  0.9215E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9136604690222140E-007  +/-   2.2792282446546845E-009
 Final result:   5.1144205009448595E-007  +/-   2.4792769270780518E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408398
   Stability unknown:                                          0
   Stable PS point:                                       408398
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408398
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408398
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25452542    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.70147705    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.14470053    
 Time spent in Integrated_CT :    9.23339844    
 Time spent in Virtuals :    603.078186    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.44170952    
 Time spent in N1body_prefactor :   0.603229046    
 Time spent in Adding_alphas_pdf :    10.3210754    
 Time spent in Reweight_scale :    38.8077087    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3998241    
 Time spent in Applying_cuts :    4.89544058    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.6772842    
 Time spent in Other_tasks :    20.6409302    
 Time spent in Total :    760.199585    
Time in seconds: 765



LOG file for integration channel /P0_uux_emep/all_G1_13, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15947
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          13
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  41041
  with seed                   48
 Ranmar initialization seeds       30233       20383
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.420976D+04 0.420976D+04  1.00
 muF1, muF1_reference: 0.420976D+04 0.420976D+04  1.00
 muF2, muF2_reference: 0.420976D+04 0.420976D+04  1.00
 QES,  QES_reference:  0.420976D+04 0.420976D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5023333496273173E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4122634615769886E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4152193361561347E-005           OLP:   -1.4152193361561356E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1710470330076919E-006           OLP:   -5.1710470330084661E-006
  FINITE:
           OLP:   -9.4424748618186219E-004
           BORN:    4.0786039832152047E-003
  MOMENTA (Exyzm): 
           1   2394.0004787888511        0.0000000000000000        0.0000000000000000        2394.0004787888511        0.0000000000000000     
           2   2394.0004787888511       -0.0000000000000000       -0.0000000000000000       -2394.0004787888511        0.0000000000000000     
           3   2394.0004787888511       -1635.1054128104822       -1157.8744681792673        1310.3416719992117        0.0000000000000000     
           4   2394.0004787888511        1635.1054128104822        1157.8744681792673       -1310.3416719992117        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4152193361561347E-005           OLP:   -1.4152193361561356E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1710470330076927E-006           OLP:   -5.1710470330084661E-006
 Error #15 in genps_fks.f  -1.0132789611816406E-006           4
ABS integral  = 0.8958E-06  +/-  0.1815E-08  (   0.203 %)
Integral      = 0.5163E-06  +/-  0.2062E-08  (   0.399 %)
Virtual       = 0.1199E-08  +/-  0.1050E-08  (  87.544 %)
Virtual ratio = -.1949E+00  +/-  0.4131E-03  (   0.212 %)
ABS virtual   = 0.4847E-06  +/-  0.8263E-09  (   0.170 %)
Born          = 0.1923E-05  +/-  0.2689E-08  (   0.140 %)
V  2          = 0.1199E-08  +/-  0.1050E-08  (  87.544 %)
B  2          = 0.1923E-05  +/-  0.2689E-08  (   0.140 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8958E-06  +/-  0.1815E-08  (   0.203 %)
accumulated results Integral      = 0.5163E-06  +/-  0.2062E-08  (   0.399 %)
accumulated results Virtual       = 0.1199E-08  +/-  0.1050E-08  (  87.544 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4131E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4847E-06  +/-  0.8263E-09  (   0.170 %)
accumulated results Born          = 0.1923E-05  +/-  0.2689E-08  (   0.140 %)
accumulated results V  2          = 0.1199E-08  +/-  0.1050E-08  (  87.544 %)
accumulated results B  2          = 0.1923E-05  +/-  0.2689E-08  (   0.140 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203025    23146  0.3262E-06  0.1854E-06  0.1000E+01
channel    2 :     1 T   209071    24358  0.3329E-06  0.1995E-06  0.9373E+00
channel    3 :     2 T    72326     8697  0.1168E-06  0.6171E-07  0.9789E+00
channel    4 :     2 T    75446     9333  0.1199E-06  0.6974E-07  0.8884E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9578060638761310E-007  +/-   1.8150433895669738E-009
 Final result:   5.1633459481212202E-007  +/-   2.0618984775773732E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408986
   Stability unknown:                                          0
   Stable PS point:                                       408986
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408986
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408986
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.69559038    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.23609018    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.66216755    
 Time spent in Integrated_CT :    11.2002563    
 Time spent in Virtuals :    695.223999    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.4705772    
 Time spent in N1body_prefactor :   0.888980925    
 Time spent in Adding_alphas_pdf :    12.5780430    
 Time spent in Reweight_scale :    52.8898544    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.7651787    
 Time spent in Applying_cuts :    7.23207188    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    55.4701157    
 Time spent in Other_tasks :    30.4017944    
 Time spent in Total :    911.714722    
Time in seconds: 919



LOG file for integration channel /P0_uux_emep/all_G1_14, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15946
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          14
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  44198
  with seed                   48
 Ranmar initialization seeds       30233       23540
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.413308D+04 0.413308D+04  1.00
 muF1, muF1_reference: 0.413308D+04 0.413308D+04  1.00
 muF2, muF2_reference: 0.413308D+04 0.413308D+04  1.00
 QES,  QES_reference:  0.413308D+04 0.413308D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5153767177284558E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4073392217025982E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4274887476116565E-005           OLP:   -1.4274887476116561E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9526009131269627E-006           OLP:   -4.9526009131267628E-006
  FINITE:
           OLP:   -9.5976652846449420E-004
           BORN:    4.1139639229473141E-003
  MOMENTA (Exyzm): 
           1   2411.1320861278850        0.0000000000000000        0.0000000000000000        2411.1320861278850        0.0000000000000000     
           2   2411.1320861278850       -0.0000000000000000       -0.0000000000000000       -2411.1320861278850        0.0000000000000000     
           3   2411.1320861278850       -1825.7335626513436       -833.08413891375335        1336.4975542267816        0.0000000000000000     
           4   2411.1320861278850        1825.7335626513436        833.08413891375335       -1336.4975542267816        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4274887476116565E-005           OLP:   -1.4274887476116561E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9526009131269567E-006           OLP:   -4.9526009131267628E-006
ABS integral  = 0.8926E-06  +/-  0.2244E-08  (   0.251 %)
Integral      = 0.5124E-06  +/-  0.2447E-08  (   0.478 %)
Virtual       = 0.2540E-09  +/-  0.1038E-08  ( 408.549 %)
Virtual ratio = -.1952E+00  +/-  0.4133E-03  (   0.212 %)
ABS virtual   = 0.4827E-06  +/-  0.8127E-09  (   0.168 %)
Born          = 0.1915E-05  +/-  0.2650E-08  (   0.138 %)
V  2          = 0.2540E-09  +/-  0.1038E-08  ( 408.549 %)
B  2          = 0.1915E-05  +/-  0.2650E-08  (   0.138 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8926E-06  +/-  0.2244E-08  (   0.251 %)
accumulated results Integral      = 0.5124E-06  +/-  0.2447E-08  (   0.478 %)
accumulated results Virtual       = 0.2540E-09  +/-  0.1038E-08  ( 408.549 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4133E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4827E-06  +/-  0.8127E-09  (   0.168 %)
accumulated results Born          = 0.1915E-05  +/-  0.2650E-08  (   0.138 %)
accumulated results V  2          = 0.2540E-09  +/-  0.1038E-08  ( 408.549 %)
accumulated results B  2          = 0.1915E-05  +/-  0.2650E-08  (   0.138 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                            2              3                         4
channel    1 :     1 T   202601    23146  0.3229E-06  0.1839E-06  0.1000E+01
channel    2 :     1 T   209366    24358  0.3328E-06  0.2000E-06  0.9844E+00
channel    3 :     2 T    72155     8697  0.1165E-06  0.6206E-07  0.1000E+01
channel    4 :     2 T    75747     9333  0.1204E-06  0.6645E-07  0.4446E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9261828746072990E-007  +/-   2.2440008140267994E-009
 Final result:   5.1243693034987541E-007  +/-   2.4473747343693588E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408391
   Stability unknown:                                          0
   Stable PS point:                                       408391
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408391
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408391
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.69060147    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.32702398    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.71451378    
 Time spent in Integrated_CT :    11.0789185    
 Time spent in Virtuals :    696.386902    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.5066147    
 Time spent in N1body_prefactor :   0.884767354    
 Time spent in Adding_alphas_pdf :    12.6550074    
 Time spent in Reweight_scale :    52.7140198    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.2919807    
 Time spent in Applying_cuts :    7.23827314    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    55.6245003    
 Time spent in Other_tasks :    30.2647705    
 Time spent in Total :    912.377930    
Time in seconds: 920



LOG file for integration channel /P0_uux_emep/all_G1_15, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15944
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          15
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  47355
  with seed                   48
 Ranmar initialization seeds       30233       26697
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430436D+04 0.430436D+04  1.00
 muF1, muF1_reference: 0.430436D+04 0.430436D+04  1.00
 muF2, muF2_reference: 0.430436D+04 0.430436D+04  1.00
 QES,  QES_reference:  0.430436D+04 0.430436D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4866236497891536E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4087823309123113E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4242699513393970E-005           OLP:   -1.4242699513393971E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0105011480171830E-006           OLP:   -5.0105011480172363E-006
  FINITE:
           OLP:   -9.5556033578940414E-004
           BORN:    4.1046874843333157E-003
  MOMENTA (Exyzm): 
           1   2406.0963311863807        0.0000000000000000        0.0000000000000000        2406.0963311863807        0.0000000000000000     
           2   2406.0963311863807       -0.0000000000000000       -0.0000000000000000       -2406.0963311863807        0.0000000000000000     
           3   2406.0963311863807       -1997.1406085857068       -183.39331402051570        1329.3215701473616        0.0000000000000000     
           4   2406.0963311863807        1997.1406085857068        183.39331402051570       -1329.3215701473616        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4242699513393970E-005           OLP:   -1.4242699513393971E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0105011480171838E-006           OLP:   -5.0105011480172363E-006
 Error #15 in genps_fks.f  -1.0384246706962585E-006           3
 Error #15 in genps_fks.f  -1.0132789611816406E-006           4
ABS integral  = 0.8942E-06  +/-  0.1891E-08  (   0.211 %)
Integral      = 0.5126E-06  +/-  0.2130E-08  (   0.415 %)
Virtual       = -.4491E-09  +/-  0.1043E-08  ( 232.256 %)
Virtual ratio = -.1953E+00  +/-  0.4133E-03  (   0.212 %)
ABS virtual   = 0.4827E-06  +/-  0.8197E-09  (   0.170 %)
Born          = 0.1915E-05  +/-  0.2667E-08  (   0.139 %)
V  2          = -.4491E-09  +/-  0.1043E-08  ( 232.256 %)
B  2          = 0.1915E-05  +/-  0.2667E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8942E-06  +/-  0.1891E-08  (   0.211 %)
accumulated results Integral      = 0.5126E-06  +/-  0.2130E-08  (   0.415 %)
accumulated results Virtual       = -.4491E-09  +/-  0.1043E-08  ( 232.256 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4133E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4827E-06  +/-  0.8197E-09  (   0.170 %)
accumulated results Born          = 0.1915E-05  +/-  0.2667E-08  (   0.139 %)
accumulated results V  2          = -.4491E-09  +/-  0.1043E-08  ( 232.256 %)
accumulated results B  2          = 0.1915E-05  +/-  0.2667E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                            2              3                         4
channel    1 :     1 T   202870    23146  0.3243E-06  0.1855E-06  0.9912E+00
channel    2 :     1 T   209042    24358  0.3331E-06  0.1977E-06  0.9135E+00
channel    3 :     2 T    72414     8697  0.1173E-06  0.6284E-07  0.9994E+00
channel    4 :     2 T    75548     9333  0.1195E-06  0.6662E-07  0.8127E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9421753971426788E-007  +/-   1.8910054161771281E-009
 Final result:   5.1261708684857964E-007  +/-   2.1295020787838715E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408290
   Stability unknown:                                          0
   Stable PS point:                                       408290
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408290
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408290
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.71744740    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.31794453    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.64976501    
 Time spent in Integrated_CT :    11.1232300    
 Time spent in Virtuals :    695.494873    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.5334282    
 Time spent in N1body_prefactor :   0.872406363    
 Time spent in Adding_alphas_pdf :    12.7875938    
 Time spent in Reweight_scale :    53.0946426    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.9286594    
 Time spent in Applying_cuts :    7.17426300    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    55.3787651    
 Time spent in Other_tasks :    30.3553467    
 Time spent in Total :    912.428467    
Time in seconds: 920



LOG file for integration channel /P0_uux_emep/all_G1_16, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15945
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          16
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  50512
  with seed                   48
 Ranmar initialization seeds       30233       29854
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.415787D+04 0.415787D+04  1.00
 muF1, muF1_reference: 0.415787D+04 0.415787D+04  1.00
 muF2, muF2_reference: 0.415787D+04 0.415787D+04  1.00
 QES,  QES_reference:  0.415787D+04 0.415787D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5111289161403985E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4090793387490098E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4201320561114799E-005           OLP:   -1.4201320561114798E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0842808474865978E-006           OLP:   -5.0842808474867096E-006
  FINITE:
           OLP:   -9.5142599865653571E-004
           BORN:    4.0927622402898382E-003
  MOMENTA (Exyzm): 
           1   2405.0614764865427        0.0000000000000000        0.0000000000000000        2405.0614764865427        0.0000000000000000     
           2   2405.0614764865427       -0.0000000000000000       -0.0000000000000000       -2405.0614764865427        0.0000000000000000     
           3   2405.0614764865427       -2008.4074516152082       -1.3574156000674764        1323.1093573091466        0.0000000000000000     
           4   2405.0614764865427        2008.4074516152082        1.3574156000674764       -1323.1093573091466        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4201320561114799E-005           OLP:   -1.4201320561114798E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0842808474865978E-006           OLP:   -5.0842808474867096E-006
ABS integral  = 0.8925E-06  +/-  0.1782E-08  (   0.200 %)
Integral      = 0.5125E-06  +/-  0.2032E-08  (   0.397 %)
Virtual       = -.4330E-09  +/-  0.1040E-08  ( 240.132 %)
Virtual ratio = -.1956E+00  +/-  0.4131E-03  (   0.211 %)
ABS virtual   = 0.4824E-06  +/-  0.8157E-09  (   0.169 %)
Born          = 0.1915E-05  +/-  0.2650E-08  (   0.138 %)
V  2          = -.4330E-09  +/-  0.1040E-08  ( 240.132 %)
B  2          = 0.1915E-05  +/-  0.2650E-08  (   0.138 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8925E-06  +/-  0.1782E-08  (   0.200 %)
accumulated results Integral      = 0.5125E-06  +/-  0.2032E-08  (   0.397 %)
accumulated results Virtual       = -.4330E-09  +/-  0.1040E-08  ( 240.132 %)
accumulated results Virtual ratio = -.1956E+00  +/-  0.4131E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4824E-06  +/-  0.8157E-09  (   0.169 %)
accumulated results Born          = 0.1915E-05  +/-  0.2650E-08  (   0.138 %)
accumulated results V  2          = -.4330E-09  +/-  0.1040E-08  ( 240.132 %)
accumulated results B  2          = 0.1915E-05  +/-  0.2650E-08  (   0.138 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202545    23146  0.3252E-06  0.1832E-06  0.9706E+00
channel    2 :     1 T   209045    24358  0.3326E-06  0.2009E-06  0.9806E+00
channel    3 :     2 T    72685     8697  0.1153E-06  0.6099E-07  0.1000E+01
channel    4 :     2 T    75604     9333  0.1194E-06  0.6737E-07  0.9278E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9248989696086349E-007  +/-   1.7819830393277073E-009
 Final result:   5.1246429829261828E-007  +/-   2.0320205527267835E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408277
   Stability unknown:                                          0
   Stable PS point:                                       408277
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408277
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408277
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.68510592    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.33111477    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.64358664    
 Time spent in Integrated_CT :    11.0800781    
 Time spent in Virtuals :    694.160583    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.5601578    
 Time spent in N1body_prefactor :   0.914956272    
 Time spent in Adding_alphas_pdf :    12.7705679    
 Time spent in Reweight_scale :    53.4533768    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.6062088    
 Time spent in Applying_cuts :    7.14841366    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    56.0619812    
 Time spent in Other_tasks :    30.4768677    
 Time spent in Total :    911.893005    
Time in seconds: 919



LOG file for integration channel /P0_uux_emep/all_G1_17, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15962
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          17
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  53669
  with seed                   48
 Ranmar initialization seeds       30233        2930
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432442D+04 0.432442D+04  1.00
 muF1, muF1_reference: 0.432442D+04 0.432442D+04  1.00
 muF2, muF2_reference: 0.432442D+04 0.432442D+04  1.00
 QES,  QES_reference:  0.432442D+04 0.432442D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4833461313765073E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4076688919830547E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4226169095729425E-005           OLP:   -1.4226169095729419E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0400293444576288E-006           OLP:   -5.0400293444576364E-006
  FINITE:
           OLP:   -9.5490669588497730E-004
           BORN:    4.0999234858767981E-003
  MOMENTA (Exyzm): 
           1   2409.9805873743512        0.0000000000000000        0.0000000000000000        2409.9805873743512        0.0000000000000000     
           2   2409.9805873743512       -0.0000000000000000       -0.0000000000000000       -2409.9805873743512        0.0000000000000000     
           3   2409.9805873743512       -2005.5654160415193       -137.50470961110372        1329.2126422563838        0.0000000000000000     
           4   2409.9805873743512        2005.5654160415193        137.50470961110372       -1329.2126422563838        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4226169095729425E-005           OLP:   -1.4226169095729419E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0400293444576296E-006           OLP:   -5.0400293444576364E-006
ABS integral  = 0.8947E-06  +/-  0.1800E-08  (   0.201 %)
Integral      = 0.5149E-06  +/-  0.2048E-08  (   0.398 %)
Virtual       = -.3953E-09  +/-  0.1046E-08  ( 264.587 %)
Virtual ratio = -.1958E+00  +/-  0.4128E-03  (   0.211 %)
ABS virtual   = 0.4846E-06  +/-  0.8212E-09  (   0.169 %)
Born          = 0.1924E-05  +/-  0.2673E-08  (   0.139 %)
V  2          = -.3953E-09  +/-  0.1046E-08  ( 264.587 %)
B  2          = 0.1924E-05  +/-  0.2673E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8947E-06  +/-  0.1800E-08  (   0.201 %)
accumulated results Integral      = 0.5149E-06  +/-  0.2048E-08  (   0.398 %)
accumulated results Virtual       = -.3953E-09  +/-  0.1046E-08  ( 264.587 %)
accumulated results Virtual ratio = -.1958E+00  +/-  0.4128E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4846E-06  +/-  0.8212E-09  (   0.169 %)
accumulated results Born          = 0.1924E-05  +/-  0.2673E-08  (   0.139 %)
accumulated results V  2          = -.3953E-09  +/-  0.1046E-08  ( 264.587 %)
accumulated results B  2          = 0.1924E-05  +/-  0.2673E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                            2              3                         4
channel    1 :     1 T   202431    23146  0.3247E-06  0.1850E-06  0.1000E+01
channel    2 :     1 T   209346    24358  0.3344E-06  0.1997E-06  0.9494E+00
channel    3 :     2 T    72671     8697  0.1170E-06  0.6315E-07  0.9831E+00
channel    4 :     2 T    75419     9333  0.1185E-06  0.6711E-07  0.9382E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9465196609881965E-007  +/-   1.8000008460413841E-009
 Final result:   5.1489242101824834E-007  +/-   2.0484366950114096E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409350
   Stability unknown:                                          0
   Stable PS point:                                       409350
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409350
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409350
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.76117754    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.36364079    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.67205429    
 Time spent in Integrated_CT :    11.4274292    
 Time spent in Virtuals :    721.844788    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8662605    
 Time spent in N1body_prefactor :   0.910409033    
 Time spent in Adding_alphas_pdf :    12.8103848    
 Time spent in Reweight_scale :    55.4883766    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.4196491    
 Time spent in Applying_cuts :    7.45823574    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    57.1670113    
 Time spent in Other_tasks :    30.7366333    
 Time spent in Total :    944.926086    
Time in seconds: 953



LOG file for integration channel /P0_uux_emep/all_G1_18, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15960
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          18
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  56826
  with seed                   48
 Ranmar initialization seeds       30233        6087
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422607D+04 0.422607D+04  1.00
 muF1, muF1_reference: 0.422607D+04 0.422607D+04  1.00
 muF2, muF2_reference: 0.422607D+04 0.422607D+04  1.00
 QES,  QES_reference:  0.422607D+04 0.422607D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4995958402838681E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3714010815953468E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4723122314792939E-005           OLP:   -1.4723122314792956E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.1010498701355651E-006           OLP:   -4.1010498701529971E-006
  FINITE:
           OLP:   -1.0329835001343444E-003
           BORN:    4.2431433619031702E-003
  MOMENTA (Exyzm): 
           1   2540.6926060582559        0.0000000000000000        0.0000000000000000        2540.6926060582559        0.0000000000000000     
           2   2540.6926060582559       -0.0000000000000000       -0.0000000000000000       -2540.6926060582559        0.0000000000000000     
           3   2540.6926060582559       -1503.3305586700396       -1424.0062941579213        1472.1828093163367        0.0000000000000000     
           4   2540.6926060582559        1503.3305586700396        1424.0062941579213       -1472.1828093163367        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4723122314792939E-005           OLP:   -1.4723122314792956E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.1010498701355660E-006           OLP:   -4.1010498701529971E-006
ABS integral  = 0.8952E-06  +/-  0.1801E-08  (   0.201 %)
Integral      = 0.5158E-06  +/-  0.2049E-08  (   0.397 %)
Virtual       = 0.9028E-09  +/-  0.1047E-08  ( 115.998 %)
Virtual ratio = -.1951E+00  +/-  0.4127E-03  (   0.212 %)
ABS virtual   = 0.4849E-06  +/-  0.8227E-09  (   0.170 %)
Born          = 0.1923E-05  +/-  0.2678E-08  (   0.139 %)
V  2          = 0.9028E-09  +/-  0.1047E-08  ( 115.998 %)
B  2          = 0.1923E-05  +/-  0.2678E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8952E-06  +/-  0.1801E-08  (   0.201 %)
accumulated results Integral      = 0.5158E-06  +/-  0.2049E-08  (   0.397 %)
accumulated results Virtual       = 0.9028E-09  +/-  0.1047E-08  ( 115.998 %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4127E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4849E-06  +/-  0.8227E-09  (   0.170 %)
accumulated results Born          = 0.1923E-05  +/-  0.2678E-08  (   0.139 %)
accumulated results V  2          = 0.9028E-09  +/-  0.1047E-08  ( 115.998 %)
accumulated results B  2          = 0.1923E-05  +/-  0.2678E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203182    23146  0.3262E-06  0.1849E-06  0.9991E+00
channel    2 :     1 T   208857    24358  0.3335E-06  0.1986E-06  0.9506E+00
channel    3 :     2 T    72594     8697  0.1163E-06  0.6370E-07  0.1000E+01
channel    4 :     2 T    75240     9333  0.1192E-06  0.6859E-07  0.9364E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9519484116396032E-007  +/-   1.8009991691349301E-009
 Final result:   5.1575101514671677E-007  +/-   2.0493518040569213E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409245
   Stability unknown:                                          0
   Stable PS point:                                       409245
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409245
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409245
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75997782    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.37777853    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.70773411    
 Time spent in Integrated_CT :    11.4614868    
 Time spent in Virtuals :    719.083862    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.0162086    
 Time spent in N1body_prefactor :   0.897142410    
 Time spent in Adding_alphas_pdf :    12.9117346    
 Time spent in Reweight_scale :    54.3910751    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.4302082    
 Time spent in Applying_cuts :    7.45777321    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    58.2668228    
 Time spent in Other_tasks :    30.8244629    
 Time spent in Total :    942.586365    
Time in seconds: 951



LOG file for integration channel /P0_uux_emep/all_G1_19, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15961
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          19
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  59983
  with seed                   48
 Ranmar initialization seeds       30233        9244
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441670D+04 0.441670D+04  1.00
 muF1, muF1_reference: 0.441670D+04 0.441670D+04  1.00
 muF2, muF2_reference: 0.441670D+04 0.441670D+04  1.00
 QES,  QES_reference:  0.441670D+04 0.441670D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4684912669032280E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4088052412329214E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4242313472512289E-005           OLP:   -1.4242313472512279E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0111931430962397E-006           OLP:   -5.0111931430961406E-006
  FINITE:
           OLP:   -9.5550540202642067E-004
           BORN:    4.1045762289372454E-003
  MOMENTA (Exyzm): 
           1   2406.0164865759939        0.0000000000000000        0.0000000000000000        2406.0164865759939        0.0000000000000000     
           2   2406.0164865759939       -0.0000000000000000       -0.0000000000000000       -2406.0164865759939        0.0000000000000000     
           3   2406.0164865759939       -1815.9675446054002       -851.08082158560421        1329.2248288925757        0.0000000000000000     
           4   2406.0164865759939        1815.9675446054002        851.08082158560421       -1329.2248288925757        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4242313472512289E-005           OLP:   -1.4242313472512279E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0111931430962430E-006           OLP:   -5.0111931430961406E-006
ABS integral  = 0.8949E-06  +/-  0.1820E-08  (   0.203 %)
Integral      = 0.5146E-06  +/-  0.2066E-08  (   0.402 %)
Virtual       = 0.1137E-09  +/-  0.1046E-08  ( 919.721 %)
Virtual ratio = -.1960E+00  +/-  0.4126E-03  (   0.211 %)
ABS virtual   = 0.4837E-06  +/-  0.8218E-09  (   0.170 %)
Born          = 0.1920E-05  +/-  0.2679E-08  (   0.140 %)
V  2          = 0.1137E-09  +/-  0.1046E-08  ( 919.721 %)
B  2          = 0.1920E-05  +/-  0.2679E-08  (   0.140 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8949E-06  +/-  0.1820E-08  (   0.203 %)
accumulated results Integral      = 0.5146E-06  +/-  0.2066E-08  (   0.402 %)
accumulated results Virtual       = 0.1137E-09  +/-  0.1046E-08  ( 919.721 %)
accumulated results Virtual ratio = -.1960E+00  +/-  0.4126E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8218E-09  (   0.170 %)
accumulated results Born          = 0.1920E-05  +/-  0.2679E-08  (   0.140 %)
accumulated results V  2          = 0.1137E-09  +/-  0.1046E-08  ( 919.721 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2679E-08  (   0.140 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                            2              3                         4
channel    1 :     1 T   202364    23146  0.3254E-06  0.1833E-06  0.1000E+01
channel    2 :     1 T   209619    24358  0.3338E-06  0.2007E-06  0.9407E+00
channel    3 :     2 T    72519     8697  0.1150E-06  0.6281E-07  0.1000E+01
channel    4 :     2 T    75370     9333  0.1207E-06  0.6785E-07  0.8716E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9485953620678940E-007  +/-   1.8198499533612582E-009
 Final result:   5.1459903949681682E-007  +/-   2.0661913327179221E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408535
   Stability unknown:                                          0
   Stable PS point:                                       408535
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408535
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408535
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.76061475    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.37520504    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.68893051    
 Time spent in Integrated_CT :    11.4334717    
 Time spent in Virtuals :    718.247253    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9528599    
 Time spent in N1body_prefactor :   0.910966873    
 Time spent in Adding_alphas_pdf :    12.9744768    
 Time spent in Reweight_scale :    55.0870628    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.4144211    
 Time spent in Applying_cuts :    7.38696432    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    56.9992409    
 Time spent in Other_tasks :    30.7891235    
 Time spent in Total :    941.020630    
Time in seconds: 949



LOG file for integration channel /P0_uux_emep/all_G1_20, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15963
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          20
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  63140
  with seed                   48
 Ranmar initialization seeds       30233       12401
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.317030D+04 0.317030D+04  1.00
 muF1, muF1_reference: 0.317030D+04 0.317030D+04  1.00
 muF2, muF2_reference: 0.317030D+04 0.317030D+04  1.00
 QES,  QES_reference:  0.317030D+04 0.317030D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7087399013601107E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4089085246688585E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4201890841095668E-005           OLP:   -1.4201890841095656E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0832648166937864E-006           OLP:   -5.0832648166937559E-006
  FINITE:
           OLP:   -9.5161772802385808E-004
           BORN:    4.0929265926373578E-003
  MOMENTA (Exyzm): 
           1   2405.6565734326791        0.0000000000000000        0.0000000000000000        2405.6565734326791        0.0000000000000000     
           2   2405.6565734326791       -0.0000000000000000       -0.0000000000000000       -2405.6565734326791        0.0000000000000000     
           3   2405.6565734326791       -1916.6074595967464       -601.75404991112873        1323.5148123589399        0.0000000000000000     
           4   2405.6565734326791        1916.6074595967464        601.75404991112873       -1323.5148123589399        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4201890841095668E-005           OLP:   -1.4201890841095656E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0832648166937873E-006           OLP:   -5.0832648166937559E-006
ABS integral  = 0.8956E-06  +/-  0.2173E-08  (   0.243 %)
Integral      = 0.5106E-06  +/-  0.2385E-08  (   0.467 %)
Virtual       = -.1634E-09  +/-  0.1046E-08  ( 639.837 %)
Virtual ratio = -.1952E+00  +/-  0.4127E-03  (   0.211 %)
ABS virtual   = 0.4843E-06  +/-  0.8211E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2672E-08  (   0.139 %)
V  2          = -.1634E-09  +/-  0.1046E-08  ( 639.837 %)
B  2          = 0.1922E-05  +/-  0.2672E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8956E-06  +/-  0.2173E-08  (   0.243 %)
accumulated results Integral      = 0.5106E-06  +/-  0.2385E-08  (   0.467 %)
accumulated results Virtual       = -.1634E-09  +/-  0.1046E-08  ( 639.837 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4127E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8211E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2672E-08  (   0.139 %)
accumulated results V  2          = -.1634E-09  +/-  0.1046E-08  ( 639.837 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2672E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202745    23146  0.3267E-06  0.1850E-06  0.9557E+00
channel    2 :     1 T   209314    24358  0.3331E-06  0.1954E-06  0.7011E+00
channel    3 :     2 T    72504     8697  0.1164E-06  0.6272E-07  0.1000E+01
channel    4 :     2 T    75309     9333  0.1193E-06  0.6750E-07  0.8946E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9556807052624077E-007  +/-   2.1729693211633953E-009
 Final result:   5.1056834776213080E-007  +/-   2.3851068690555022E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409223
   Stability unknown:                                          0
   Stable PS point:                                       409223
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409223
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409223
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.77214706    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.41045380    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.72341347    
 Time spent in Integrated_CT :    11.5307007    
 Time spent in Virtuals :    716.545715    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.0060043    
 Time spent in N1body_prefactor :   0.908863783    
 Time spent in Adding_alphas_pdf :    13.0239935    
 Time spent in Reweight_scale :    56.0351334    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.1388092    
 Time spent in Applying_cuts :    7.38517857    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    57.7381325    
 Time spent in Other_tasks :    30.9362183    
 Time spent in Total :    941.154785    
Time in seconds: 949



LOG file for integration channel /P0_uux_emep/all_G1_21, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15959
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          21
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  66297
  with seed                   48
 Ranmar initialization seeds       30233       15558
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.409871D+04 0.409871D+04  1.00
 muF1, muF1_reference: 0.409871D+04 0.409871D+04  1.00
 muF2, muF2_reference: 0.409871D+04 0.409871D+04  1.00
 QES,  QES_reference:  0.409871D+04 0.409871D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5213172036704051E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4072930614314830E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4270279978723071E-005           OLP:   -1.4270279978723078E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9609088273163890E-006           OLP:   -4.9609088273164008E-006
  FINITE:
           OLP:   -9.5936956974977954E-004
           BORN:    4.1126360611281844E-003
  MOMENTA (Exyzm): 
           1   2411.2933708604505        0.0000000000000000        0.0000000000000000        2411.2933708604505        0.0000000000000000     
           2   2411.2933708604505       -0.0000000000000000       -0.0000000000000000       -2411.2933708604505        0.0000000000000000     
           3   2411.2933708604505       -1943.0199736557997       -504.20575960262693        1335.9587023234317        0.0000000000000000     
           4   2411.2933708604505        1943.0199736557997        504.20575960262693       -1335.9587023234317        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4270279978723071E-005           OLP:   -1.4270279978723078E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9609088273163898E-006           OLP:   -4.9609088273164008E-006
ABS integral  = 0.8944E-06  +/-  0.1796E-08  (   0.201 %)
Integral      = 0.5163E-06  +/-  0.2044E-08  (   0.396 %)
Virtual       = 0.4150E-09  +/-  0.1048E-08  ( 252.446 %)
Virtual ratio = -.1950E+00  +/-  0.4129E-03  (   0.212 %)
ABS virtual   = 0.4848E-06  +/-  0.8234E-09  (   0.170 %)
Born          = 0.1924E-05  +/-  0.2680E-08  (   0.139 %)
V  2          = 0.4150E-09  +/-  0.1048E-08  ( 252.446 %)
B  2          = 0.1924E-05  +/-  0.2680E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8944E-06  +/-  0.1796E-08  (   0.201 %)
accumulated results Integral      = 0.5163E-06  +/-  0.2044E-08  (   0.396 %)
accumulated results Virtual       = 0.4150E-09  +/-  0.1048E-08  ( 252.446 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4129E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4848E-06  +/-  0.8234E-09  (   0.170 %)
accumulated results Born          = 0.1924E-05  +/-  0.2680E-08  (   0.139 %)
accumulated results V  2          = 0.4150E-09  +/-  0.1048E-08  ( 252.446 %)
accumulated results B  2          = 0.1924E-05  +/-  0.2680E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202682    23146  0.3253E-06  0.1864E-06  0.1000E+01
channel    2 :     1 T   209281    24358  0.3339E-06  0.2007E-06  0.9468E+00
channel    3 :     2 T    72325     8697  0.1153E-06  0.6161E-07  0.9611E+00
channel    4 :     2 T    75579     9333  0.1199E-06  0.6752E-07  0.9215E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9444648700699166E-007  +/-   1.7956330374568256E-009
 Final result:   5.1627117156960823E-007  +/-   2.0438179647309781E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408812
   Stability unknown:                                          0
   Stable PS point:                                       408812
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408812
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408812
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75675035    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.33976030    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.72621822    
 Time spent in Integrated_CT :    11.5530396    
 Time spent in Virtuals :    719.816956    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9453163    
 Time spent in N1body_prefactor :   0.904149294    
 Time spent in Adding_alphas_pdf :    12.8123541    
 Time spent in Reweight_scale :    54.9706192    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.3619385    
 Time spent in Applying_cuts :    7.42035007    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    57.0321198    
 Time spent in Other_tasks :    30.6837158    
 Time spent in Total :    942.323364    
Time in seconds: 951



LOG file for integration channel /P0_uux_emep/all_G1_22, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15971
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          22
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  69454
  with seed                   48
 Ranmar initialization seeds       30233       18715
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434482D+04 0.434482D+04  1.00
 muF1, muF1_reference: 0.434482D+04 0.434482D+04  1.00
 muF2, muF2_reference: 0.434482D+04 0.434482D+04  1.00
 QES,  QES_reference:  0.434482D+04 0.434482D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4800290453831839E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4095399015178767E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4196048469874298E-005           OLP:   -1.4196048469874311E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0936414022672023E-006           OLP:   -5.0936414022667229E-006
  FINITE:
           OLP:   -9.5055810948008732E-004
           BORN:    4.0912428452544525E-003
  MOMENTA (Exyzm): 
           1   2403.4578039080197        0.0000000000000000        0.0000000000000000        2403.4578039080197        0.0000000000000000     
           2   2403.4578039080197       -0.0000000000000000       -0.0000000000000000       -2403.4578039080197        0.0000000000000000     
           3   2403.4578039080197       -1644.9108062392547       -1150.8672684093292        1321.5076182859239        0.0000000000000000     
           4   2403.4578039080197        1644.9108062392547        1150.8672684093292       -1321.5076182859239        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4196048469874298E-005           OLP:   -1.4196048469874311E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0936414022672023E-006           OLP:   -5.0936414022667229E-006
ABS integral  = 0.8939E-06  +/-  0.1831E-08  (   0.205 %)
Integral      = 0.5130E-06  +/-  0.2076E-08  (   0.405 %)
Virtual       = -.8345E-09  +/-  0.1044E-08  ( 125.126 %)
Virtual ratio = -.1953E+00  +/-  0.4129E-03  (   0.211 %)
ABS virtual   = 0.4841E-06  +/-  0.8196E-09  (   0.169 %)
Born          = 0.1921E-05  +/-  0.2669E-08  (   0.139 %)
V  2          = -.8345E-09  +/-  0.1044E-08  ( 125.126 %)
B  2          = 0.1921E-05  +/-  0.2669E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8939E-06  +/-  0.1831E-08  (   0.205 %)
accumulated results Integral      = 0.5130E-06  +/-  0.2076E-08  (   0.405 %)
accumulated results Virtual       = -.8345E-09  +/-  0.1044E-08  ( 125.126 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4129E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8196E-09  (   0.169 %)
accumulated results Born          = 0.1921E-05  +/-  0.2669E-08  (   0.139 %)
accumulated results V  2          = -.8345E-09  +/-  0.1044E-08  ( 125.126 %)
accumulated results B  2          = 0.1921E-05  +/-  0.2669E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202361    23146  0.3250E-06  0.1822E-06  0.9886E+00
channel    2 :     1 T   209580    24358  0.3330E-06  0.1999E-06  0.9528E+00
channel    3 :     2 T    72264     8697  0.1164E-06  0.6206E-07  0.9839E+00
channel    4 :     2 T    75669     9333  0.1195E-06  0.6884E-07  0.8817E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9387880870238526E-007  +/-   1.8306967126423242E-009
 Final result:   5.1300116451541244E-007  +/-   2.0757029324494553E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408986
   Stability unknown:                                          0
   Stable PS point:                                       408986
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408986
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408986
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.79249597    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.38988829    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.70330858    
 Time spent in Integrated_CT :    11.4867554    
 Time spent in Virtuals :    716.564514    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9489250    
 Time spent in N1body_prefactor :   0.904688060    
 Time spent in Adding_alphas_pdf :    13.0032530    
 Time spent in Reweight_scale :    55.7761765    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.1857471    
 Time spent in Applying_cuts :    7.39440441    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    57.1775246    
 Time spent in Other_tasks :    31.0866699    
 Time spent in Total :    940.414307    
Time in seconds: 947



LOG file for integration channel /P0_uux_emep/all_G1_23, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15970
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          23
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  72611
  with seed                   48
 Ranmar initialization seeds       30233       21872
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423564D+04 0.423564D+04  1.00
 muF1, muF1_reference: 0.423564D+04 0.423564D+04  1.00
 muF2, muF2_reference: 0.423564D+04 0.423564D+04  1.00
 QES,  QES_reference:  0.423564D+04 0.423564D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4979950047253371E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4093077733736551E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4259075842428180E-005           OLP:   -1.4259075842428190E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9811255702301362E-006           OLP:   -4.9811255702301819E-006
  FINITE:
           OLP:   -9.5667565936469082E-004
           BORN:    4.1094070750796368E-003
  MOMENTA (Exyzm): 
           1   2404.2659108787552        0.0000000000000000        0.0000000000000000        2404.2659108787552        0.0000000000000000     
           2   2404.2659108787552       -0.0000000000000000       -0.0000000000000000       -2404.2659108787552        0.0000000000000000     
           3   2404.2659108787552       -1754.2068902597343       -965.87824219351899        1330.5382285511680        0.0000000000000000     
           4   2404.2659108787552        1754.2068902597343        965.87824219351899       -1330.5382285511680        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4259075842428180E-005           OLP:   -1.4259075842428190E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9811255702301353E-006           OLP:   -4.9811255702301819E-006
ABS integral  = 0.8952E-06  +/-  0.1892E-08  (   0.211 %)
Integral      = 0.5135E-06  +/-  0.2131E-08  (   0.415 %)
Virtual       = -.9147E-09  +/-  0.1045E-08  ( 114.254 %)
Virtual ratio = -.1957E+00  +/-  0.4130E-03  (   0.211 %)
ABS virtual   = 0.4835E-06  +/-  0.8214E-09  (   0.170 %)
Born          = 0.1919E-05  +/-  0.2672E-08  (   0.139 %)
V  2          = -.9147E-09  +/-  0.1045E-08  ( 114.254 %)
B  2          = 0.1919E-05  +/-  0.2672E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8952E-06  +/-  0.1892E-08  (   0.211 %)
accumulated results Integral      = 0.5135E-06  +/-  0.2131E-08  (   0.415 %)
accumulated results Virtual       = -.9147E-09  +/-  0.1045E-08  ( 114.254 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4130E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8214E-09  (   0.170 %)
accumulated results Born          = 0.1919E-05  +/-  0.2672E-08  (   0.139 %)
accumulated results V  2          = -.9147E-09  +/-  0.1045E-08  ( 114.254 %)
accumulated results B  2          = 0.1919E-05  +/-  0.2672E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203022    23146  0.3265E-06  0.1837E-06  0.9215E+00
channel    2 :     1 T   208709    24358  0.3299E-06  0.1986E-06  0.9520E+00
channel    3 :     2 T    72751     8697  0.1188E-06  0.6342E-07  0.9777E+00
channel    4 :     2 T    75389     9333  0.1200E-06  0.6783E-07  0.8859E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9521273495994154E-007  +/-   1.8924348609109521E-009
 Final result:   5.1347640650965422E-007  +/-   2.1311483307312424E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408807
   Stability unknown:                                          0
   Stable PS point:                                       408807
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408807
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408807
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.74185610    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.44016409    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.63781834    
 Time spent in Integrated_CT :    11.4442139    
 Time spent in Virtuals :    717.707275    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9064837    
 Time spent in N1body_prefactor :   0.902750492    
 Time spent in Adding_alphas_pdf :    13.0972481    
 Time spent in Reweight_scale :    56.0394516    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.1730442    
 Time spent in Applying_cuts :    7.41827345    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    57.6186638    
 Time spent in Other_tasks :    30.7360229    
 Time spent in Total :    941.863220    
Time in seconds: 950



LOG file for integration channel /P0_uux_emep/all_G1_24, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15972
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          24
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  75768
  with seed                   48
 Ranmar initialization seeds       30233       25029
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.337425D+04 0.337425D+04  1.00
 muF1, muF1_reference: 0.337425D+04 0.337425D+04  1.00
 muF2, muF2_reference: 0.337425D+04 0.337425D+04  1.00
 QES,  QES_reference:  0.337425D+04 0.337425D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6623702159667573E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3864134559563616E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4669371222727340E-005           OLP:   -1.4669371222727333E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.2079445226716932E-006           OLP:   -4.2079445226671972E-006
  FINITE:
           OLP:   -1.0148583461504345E-003
           BORN:    4.2276525180035690E-003
  MOMENTA (Exyzm): 
           1   2485.5861015441747        0.0000000000000000        0.0000000000000000        2485.5861015441747        0.0000000000000000     
           2   2485.5861015441747       -0.0000000000000000       -0.0000000000000000       -2485.5861015441747        0.0000000000000000     
           3   2485.5861015441747       -1403.1488104251519       -1468.4643898503439        1432.8028544546899        0.0000000000000000     
           4   2485.5861015441747        1403.1488104251519        1468.4643898503439       -1432.8028544546899        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4669371222727340E-005           OLP:   -1.4669371222727333E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.2079445226716932E-006           OLP:   -4.2079445226671972E-006
ABS integral  = 0.8929E-06  +/-  0.1785E-08  (   0.200 %)
Integral      = 0.5157E-06  +/-  0.2034E-08  (   0.394 %)
Virtual       = 0.5915E-10  +/-  0.1041E-08  ( ******* %)
Virtual ratio = -.1957E+00  +/-  0.4126E-03  (   0.211 %)
ABS virtual   = 0.4830E-06  +/-  0.8168E-09  (   0.169 %)
Born          = 0.1919E-05  +/-  0.2655E-08  (   0.138 %)
V  2          = 0.5915E-10  +/-  0.1041E-08  ( ******* %)
B  2          = 0.1919E-05  +/-  0.2655E-08  (   0.138 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8929E-06  +/-  0.1785E-08  (   0.200 %)
accumulated results Integral      = 0.5157E-06  +/-  0.2034E-08  (   0.394 %)
accumulated results Virtual       = 0.5915E-10  +/-  0.1041E-08  ( ******* %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4126E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8168E-09  (   0.169 %)
accumulated results Born          = 0.1919E-05  +/-  0.2655E-08  (   0.138 %)
accumulated results V  2          = 0.5915E-10  +/-  0.1041E-08  ( ******* %)
accumulated results B  2          = 0.1919E-05  +/-  0.2655E-08  (   0.138 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203141    23146  0.3249E-06  0.1860E-06  0.1000E+01
channel    2 :     1 T   209125    24358  0.3329E-06  0.1999E-06  0.9476E+00
channel    3 :     2 T    72068     8697  0.1161E-06  0.6216E-07  0.9799E+00
channel    4 :     2 T    75537     9333  0.1190E-06  0.6765E-07  0.9319E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9292082347379794E-007  +/-   1.7853180376887055E-009
 Final result:   5.1567956755541273E-007  +/-   2.0338323891212322E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408889
   Stability unknown:                                          0
   Stable PS point:                                       408889
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408889
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408889
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.77767098    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.36798668    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.69843054    
 Time spent in Integrated_CT :    11.5808716    
 Time spent in Virtuals :    719.491516    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.1042385    
 Time spent in N1body_prefactor :   0.939982057    
 Time spent in Adding_alphas_pdf :    13.0726528    
 Time spent in Reweight_scale :    55.0676041    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.3803272    
 Time spent in Applying_cuts :    7.44801188    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    57.0486450    
 Time spent in Other_tasks :    31.1398315    
 Time spent in Total :    943.117798    
Time in seconds: 950



LOG file for integration channel /P0_uux_emep/all_G1_25, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15994
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          25
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  78925
  with seed                   48
 Ranmar initialization seeds       30233       28186
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.384217D+04 0.384217D+04  1.00
 muF1, muF1_reference: 0.384217D+04 0.384217D+04  1.00
 muF2, muF2_reference: 0.384217D+04 0.384217D+04  1.00
 QES,  QES_reference:  0.384217D+04 0.384217D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5676074793792125E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4096992510557375E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4272842602711161E-005           OLP:   -1.4272842602711144E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9563455961398148E-006           OLP:   -4.9563455961391354E-006
  FINITE:
           OLP:   -9.5765372031918661E-004
           BORN:    4.1133745988331380E-003
  MOMENTA (Exyzm): 
           1   2402.9032486794417        0.0000000000000000        0.0000000000000000        2402.9032486794417        0.0000000000000000     
           2   2402.9032486794417       -0.0000000000000000       -0.0000000000000000       -2402.9032486794417        0.0000000000000000     
           3   2402.9032486794417       -1616.8345230622433       -1177.4911623159373        1331.6548765412781        0.0000000000000000     
           4   2402.9032486794417        1616.8345230622433        1177.4911623159373       -1331.6548765412781        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4272842602711161E-005           OLP:   -1.4272842602711144E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9563455961398131E-006           OLP:   -4.9563455961391354E-006
ABS integral  = 0.8941E-06  +/-  0.2024E-08  (   0.226 %)
Integral      = 0.5099E-06  +/-  0.2250E-08  (   0.441 %)
Virtual       = -.1570E-08  +/-  0.1044E-08  (  66.489 %)
Virtual ratio = -.1959E+00  +/-  0.4131E-03  (   0.211 %)
ABS virtual   = 0.4836E-06  +/-  0.8195E-09  (   0.169 %)
Born          = 0.1919E-05  +/-  0.2668E-08  (   0.139 %)
V  2          = -.1570E-08  +/-  0.1044E-08  (  66.489 %)
B  2          = 0.1919E-05  +/-  0.2668E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8941E-06  +/-  0.2024E-08  (   0.226 %)
accumulated results Integral      = 0.5099E-06  +/-  0.2250E-08  (   0.441 %)
accumulated results Virtual       = -.1570E-08  +/-  0.1044E-08  (  66.489 %)
accumulated results Virtual ratio = -.1959E+00  +/-  0.4131E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8195E-09  (   0.169 %)
accumulated results Born          = 0.1919E-05  +/-  0.2668E-08  (   0.139 %)
accumulated results V  2          = -.1570E-08  +/-  0.1044E-08  (  66.489 %)
accumulated results B  2          = 0.1919E-05  +/-  0.2668E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   201989    23146  0.3247E-06  0.1834E-06  0.8897E+00
channel    2 :     1 T   209507    24358  0.3323E-06  0.1965E-06  0.8396E+00
channel    3 :     2 T    72176     8697  0.1157E-06  0.6173E-07  0.9952E+00
channel    4 :     2 T    76198     9333  0.1214E-06  0.6827E-07  0.9018E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9408587957423695E-007  +/-   2.0243859494816074E-009
 Final result:   5.0986579476146302E-007  +/-   2.2498044762751208E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409004
   Stability unknown:                                          0
   Stable PS point:                                       409004
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409004
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409004
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.76872635    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.39277792    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.71581793    
 Time spent in Integrated_CT :    11.3593750    
 Time spent in Virtuals :    718.448425    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.7742682    
 Time spent in N1body_prefactor :   0.902830780    
 Time spent in Adding_alphas_pdf :    12.7970581    
 Time spent in Reweight_scale :    55.7077370    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.1386700    
 Time spent in Applying_cuts :    7.47791147    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    57.0559120    
 Time spent in Other_tasks :    30.3554077    
 Time spent in Total :    940.894958    
Time in seconds: 948



LOG file for integration channel /P0_uux_emep/all_G1_26, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15995
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          26
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  82082
  with seed                   48
 Ranmar initialization seeds       30233        1262
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438419D+04 0.438419D+04  1.00
 muF1, muF1_reference: 0.438419D+04 0.438419D+04  1.00
 muF2, muF2_reference: 0.438419D+04 0.438419D+04  1.00
 QES,  QES_reference:  0.438419D+04 0.438419D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4736811322490174E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4078598034171203E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4282600401785712E-005           OLP:   -1.4282600401785707E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9386846694692444E-006           OLP:   -4.9386846694693359E-006
  FINITE:
           OLP:   -9.6006991124664934E-004
           BORN:    4.1161867564369885E-003
  MOMENTA (Exyzm): 
           1   2409.3140569446005        0.0000000000000000        0.0000000000000000        2409.3140569446005        0.0000000000000000     
           2   2409.3140569446005       -0.0000000000000000       -0.0000000000000000       -2409.3140569446005        0.0000000000000000     
           3   2409.3140569446005       -1985.1377868857660       -278.71812303176745        1336.5397113302622        0.0000000000000000     
           4   2409.3140569446005        1985.1377868857660        278.71812303176745       -1336.5397113302622        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4282600401785712E-005           OLP:   -1.4282600401785707E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9386846694692486E-006           OLP:   -4.9386846694693359E-006
 Error #15 in genps_fks.f  -1.0728836059570312E-006           3
ABS integral  = 0.8986E-06  +/-  0.2050E-08  (   0.228 %)
Integral      = 0.5121E-06  +/-  0.2275E-08  (   0.444 %)
Virtual       = -.3608E-09  +/-  0.1045E-08  ( 289.523 %)
Virtual ratio = -.1957E+00  +/-  0.4129E-03  (   0.211 %)
ABS virtual   = 0.4839E-06  +/-  0.8203E-09  (   0.170 %)
Born          = 0.1921E-05  +/-  0.2668E-08  (   0.139 %)
V  2          = -.3608E-09  +/-  0.1045E-08  ( 289.523 %)
B  2          = 0.1921E-05  +/-  0.2668E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8986E-06  +/-  0.2050E-08  (   0.228 %)
accumulated results Integral      = 0.5121E-06  +/-  0.2275E-08  (   0.444 %)
accumulated results Virtual       = -.3608E-09  +/-  0.1045E-08  ( 289.523 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4129E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8203E-09  (   0.170 %)
accumulated results Born          = 0.1921E-05  +/-  0.2668E-08  (   0.139 %)
accumulated results V  2          = -.3608E-09  +/-  0.1045E-08  ( 289.523 %)
accumulated results B  2          = 0.1921E-05  +/-  0.2668E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203362    23146  0.3281E-06  0.1838E-06  0.9441E+00
channel    2 :     1 T   209017    24358  0.3342E-06  0.1984E-06  0.7806E+00
channel    3 :     2 T    72477     8697  0.1178E-06  0.6228E-07  0.1000E+01
channel    4 :     2 T    75016     9333  0.1185E-06  0.6756E-07  0.8949E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9857999076012822E-007  +/-   2.0496878531742993E-009
 Final result:   5.1209992348591292E-007  +/-   2.2748656471983466E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408836
   Stability unknown:                                          0
   Stable PS point:                                       408836
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408836
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408836
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.72260284    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.38425159    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.67957115    
 Time spent in Integrated_CT :    11.3834229    
 Time spent in Virtuals :    718.593506    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.7578268    
 Time spent in N1body_prefactor :   0.935548782    
 Time spent in Adding_alphas_pdf :    12.9417362    
 Time spent in Reweight_scale :    56.0556946    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2749157    
 Time spent in Applying_cuts :    7.45338440    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    56.9498825    
 Time spent in Other_tasks :    30.4921265    
 Time spent in Total :    941.624390    
Time in seconds: 949



LOG file for integration channel /P0_uux_emep/all_G1_27, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15997
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          27
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  85239
  with seed                   48
 Ranmar initialization seeds       30233        4419
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440445D+04 0.440445D+04  1.00
 muF1, muF1_reference: 0.440445D+04 0.440445D+04  1.00
 muF2, muF2_reference: 0.440445D+04 0.440445D+04  1.00
 QES,  QES_reference:  0.440445D+04 0.440445D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4704420652013395E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4074883591329160E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4299898831524068E-005           OLP:   -1.4299898831524065E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9073488179676970E-006           OLP:   -4.9073488179678901E-006
  FINITE:
           OLP:   -9.6200440399890890E-004
           BORN:    4.1211720928178396E-003
  MOMENTA (Exyzm): 
           1   2410.6110855922125        0.0000000000000000        0.0000000000000000        2410.6110855922125        0.0000000000000000     
           2   2410.6110855922125       -0.0000000000000000       -0.0000000000000000       -2410.6110855922125        0.0000000000000000     
           3   2410.6110855922125       -1923.3174846134104       -563.31509714246965        1339.6162736738381        0.0000000000000000     
           4   2410.6110855922125        1923.3174846134104        563.31509714246965       -1339.6162736738381        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4299898831524068E-005           OLP:   -1.4299898831524065E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9073488179677012E-006           OLP:   -4.9073488179678901E-006
ABS integral  = 0.8984E-06  +/-  0.1869E-08  (   0.208 %)
Integral      = 0.5187E-06  +/-  0.2110E-08  (   0.407 %)
Virtual       = 0.1677E-08  +/-  0.1047E-08  (  62.468 %)
Virtual ratio = -.1944E+00  +/-  0.4128E-03  (   0.212 %)
ABS virtual   = 0.4849E-06  +/-  0.8227E-09  (   0.170 %)
Born          = 0.1923E-05  +/-  0.2677E-08  (   0.139 %)
V  2          = 0.1677E-08  +/-  0.1047E-08  (  62.468 %)
B  2          = 0.1923E-05  +/-  0.2677E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8984E-06  +/-  0.1869E-08  (   0.208 %)
accumulated results Integral      = 0.5187E-06  +/-  0.2110E-08  (   0.407 %)
accumulated results Virtual       = 0.1677E-08  +/-  0.1047E-08  (  62.468 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4128E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4849E-06  +/-  0.8227E-09  (   0.170 %)
accumulated results Born          = 0.1923E-05  +/-  0.2677E-08  (   0.139 %)
accumulated results V  2          = 0.1677E-08  +/-  0.1047E-08  (  62.468 %)
accumulated results B  2          = 0.1923E-05  +/-  0.2677E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                            2              3                         4
channel    1 :     1 T   203141    23146  0.3277E-06  0.1874E-06  0.1000E+01
channel    2 :     1 T   209323    24358  0.3338E-06  0.1999E-06  0.8974E+00
channel    3 :     2 T    72276     8697  0.1164E-06  0.6226E-07  0.9559E+00
channel    4 :     2 T    75131     9333  0.1206E-06  0.6915E-07  0.8860E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9843186084593996E-007  +/-   1.8689157804950697E-009
 Final result:   5.1874312588390011E-007  +/-   2.1104342249371614E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408941
   Stability unknown:                                          0
   Stable PS point:                                       408941
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408941
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408941
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.74034941    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.30021477    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.62369061    
 Time spent in Integrated_CT :    11.3084106    
 Time spent in Virtuals :    714.103088    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8955832    
 Time spent in N1body_prefactor :   0.916122019    
 Time spent in Adding_alphas_pdf :    13.1538048    
 Time spent in Reweight_scale :    54.9993057    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.3771801    
 Time spent in Applying_cuts :    7.43533182    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    56.7054825    
 Time spent in Other_tasks :    30.5788574    
 Time spent in Total :    936.137451    
Time in seconds: 941



LOG file for integration channel /P0_uux_emep/all_G1_28, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       15996
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          28
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  88396
  with seed                   48
 Ranmar initialization seeds       30233        7576
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.404762D+04 0.404762D+04  1.00
 muF1, muF1_reference: 0.404762D+04 0.404762D+04  1.00
 muF2, muF2_reference: 0.404762D+04 0.404762D+04  1.00
 QES,  QES_reference:  0.404762D+04 0.404762D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5302561016584960E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4129100263039011E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4142606114457064E-005           OLP:   -1.4142606114457050E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1878673996889841E-006           OLP:   -5.1878673996886809E-006
  FINITE:
           OLP:   -9.4283007207344386E-004
           BORN:    4.0758409779884808E-003
  MOMENTA (Exyzm): 
           1   2391.7618733105223        0.0000000000000000        0.0000000000000000        2391.7618733105223        0.0000000000000000     
           2   2391.7618733105223       -0.0000000000000000       -0.0000000000000000       -2391.7618733105223        0.0000000000000000     
           3   2391.7618733105223       -1284.5317514032188       -1536.2718576726625        1307.8118433405571        0.0000000000000000     
           4   2391.7618733105223        1284.5317514032188        1536.2718576726625       -1307.8118433405571        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4142606114457064E-005           OLP:   -1.4142606114457050E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1878673996889841E-006           OLP:   -5.1878673996886809E-006
 Error #15 in genps_fks.f  -1.0943040251731873E-006           4
ABS integral  = 0.8924E-06  +/-  0.1769E-08  (   0.198 %)
Integral      = 0.5147E-06  +/-  0.2019E-08  (   0.392 %)
Virtual       = -.6745E-09  +/-  0.1041E-08  ( 154.314 %)
Virtual ratio = -.1957E+00  +/-  0.4129E-03  (   0.211 %)
ABS virtual   = 0.4827E-06  +/-  0.8169E-09  (   0.169 %)
Born          = 0.1918E-05  +/-  0.2662E-08  (   0.139 %)
V  2          = -.6745E-09  +/-  0.1041E-08  ( 154.314 %)
B  2          = 0.1918E-05  +/-  0.2662E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8924E-06  +/-  0.1769E-08  (   0.198 %)
accumulated results Integral      = 0.5147E-06  +/-  0.2019E-08  (   0.392 %)
accumulated results Virtual       = -.6745E-09  +/-  0.1041E-08  ( 154.314 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4129E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4827E-06  +/-  0.8169E-09  (   0.169 %)
accumulated results Born          = 0.1918E-05  +/-  0.2662E-08  (   0.139 %)
accumulated results V  2          = -.6745E-09  +/-  0.1041E-08  ( 154.314 %)
accumulated results B  2          = 0.1918E-05  +/-  0.2662E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202983    23146  0.3257E-06  0.1853E-06  0.9961E+00
channel    2 :     1 T   209048    24358  0.3322E-06  0.1999E-06  0.9872E+00
channel    3 :     2 T    72546     8697  0.1161E-06  0.6238E-07  0.9908E+00
channel    4 :     2 T    75298     9333  0.1185E-06  0.6710E-07  0.9249E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9239418162977025E-007  +/-   1.7689221595119806E-009
 Final result:   5.1470410452277495E-007  +/-   2.0194838896762158E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408870
   Stability unknown:                                          0
   Stable PS point:                                       408870
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408870
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408870
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.77415168    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.29734945    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.64931154    
 Time spent in Integrated_CT :    11.4236450    
 Time spent in Virtuals :    712.410950    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9411831    
 Time spent in N1body_prefactor :   0.882922292    
 Time spent in Adding_alphas_pdf :    12.8247519    
 Time spent in Reweight_scale :    54.4096031    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.1648483    
 Time spent in Applying_cuts :    7.38745213    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    57.7999878    
 Time spent in Other_tasks :    30.5440674    
 Time spent in Total :    934.510254    
Time in seconds: 939



LOG file for integration channel /P0_uux_emep/all_G1_29, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18083
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          29
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  91553
  with seed                   48
 Ranmar initialization seeds       30233       10733
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432302D+04 0.432302D+04  1.00
 muF1, muF1_reference: 0.432302D+04 0.432302D+04  1.00
 muF2, muF2_reference: 0.432302D+04 0.432302D+04  1.00
 QES,  QES_reference:  0.432302D+04 0.432302D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4835731001273248E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4090326859732186E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4274439407953180E-005           OLP:   -1.4274439407953160E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9534494565050829E-006           OLP:   -4.9534494565052709E-006
  FINITE:
           OLP:   -9.5834608947356625E-004
           BORN:    4.1138347915434925E-003
  MOMENTA (Exyzm): 
           1   2405.2239920272928        0.0000000000000000        0.0000000000000000        2405.2239920272928        0.0000000000000000     
           2   2405.2239920272928       -0.0000000000000000       -0.0000000000000000       -2405.2239920272928        0.0000000000000000     
           3   2405.2239920272928       -1789.9885934877273       -896.50980862957772        1333.1591990600723        0.0000000000000000     
           4   2405.2239920272928        1789.9885934877273        896.50980862957772       -1333.1591990600723        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4274439407953180E-005           OLP:   -1.4274439407953160E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9534494565050838E-006           OLP:   -4.9534494565052709E-006
ABS integral  = 0.8936E-06  +/-  0.1776E-08  (   0.199 %)
Integral      = 0.5148E-06  +/-  0.2026E-08  (   0.394 %)
Virtual       = -.1740E-08  +/-  0.1043E-08  (  59.917 %)
Virtual ratio = -.1965E+00  +/-  0.4128E-03  (   0.210 %)
ABS virtual   = 0.4836E-06  +/-  0.8182E-09  (   0.169 %)
Born          = 0.1921E-05  +/-  0.2671E-08  (   0.139 %)
V  2          = -.1740E-08  +/-  0.1043E-08  (  59.917 %)
B  2          = 0.1921E-05  +/-  0.2671E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8936E-06  +/-  0.1776E-08  (   0.199 %)
accumulated results Integral      = 0.5148E-06  +/-  0.2026E-08  (   0.394 %)
accumulated results Virtual       = -.1740E-08  +/-  0.1043E-08  (  59.917 %)
accumulated results Virtual ratio = -.1965E+00  +/-  0.4128E-03  (   0.210 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8182E-09  (   0.169 %)
accumulated results Born          = 0.1921E-05  +/-  0.2671E-08  (   0.139 %)
accumulated results V  2          = -.1740E-08  +/-  0.1043E-08  (  59.917 %)
accumulated results B  2          = 0.1921E-05  +/-  0.2671E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202770    23146  0.3255E-06  0.1848E-06  0.1000E+01
channel    2 :     1 T   209224    24358  0.3323E-06  0.2011E-06  0.9830E+00
channel    3 :     2 T    72301     8697  0.1160E-06  0.6187E-07  0.1000E+01
channel    4 :     2 T    75579     9333  0.1199E-06  0.6713E-07  0.8810E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9356803634979655E-007  +/-   1.7757125864778433E-009
 Final result:   5.1484470224110897E-007  +/-   2.0262948338333004E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409081
   Stability unknown:                                          0
   Stable PS point:                                       409081
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409081
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409081
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53425407    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.70621586    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.42282486    
 Time spent in Integrated_CT :    9.69433594    
 Time spent in Virtuals :    590.332397    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.49758434    
 Time spent in N1body_prefactor :   0.796026647    
 Time spent in Adding_alphas_pdf :    10.3435402    
 Time spent in Reweight_scale :    46.1072006    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9127083    
 Time spent in Applying_cuts :    5.61123705    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0273781    
 Time spent in Other_tasks :    25.2677612    
 Time spent in Total :    763.253479    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_30, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18070
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          30
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  94710
  with seed                   48
 Ranmar initialization seeds       30233       13890
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427267D+04 0.427267D+04  1.00
 muF1, muF1_reference: 0.427267D+04 0.427267D+04  1.00
 muF2, muF2_reference: 0.427267D+04 0.427267D+04  1.00
 QES,  QES_reference:  0.427267D+04 0.427267D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4918415626650747E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3889283815894685E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4707605519556906E-005           OLP:   -1.4707605519556893E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.1323554537821042E-006           OLP:   -4.1323554537801230E-006
  FINITE:
           OLP:   -1.0164004951818350E-003
           BORN:    4.2386714852661314E-003
  MOMENTA (Exyzm): 
           1   2476.4943831656237        0.0000000000000000        0.0000000000000000        2476.4943831656237        0.0000000000000000     
           2   2476.4943831656237       -0.0000000000000000       -0.0000000000000000       -2476.4943831656237        0.0000000000000000     
           3   2476.4943831656237       -1449.1636744233222       -1407.1125213900398        1432.8235853482256        0.0000000000000000     
           4   2476.4943831656237        1449.1636744233222        1407.1125213900398       -1432.8235853482256        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4707605519556906E-005           OLP:   -1.4707605519556893E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.1323554537821050E-006           OLP:   -4.1323554537801230E-006
ABS integral  = 0.8928E-06  +/-  0.2011E-08  (   0.225 %)
Integral      = 0.5105E-06  +/-  0.2237E-08  (   0.438 %)
Virtual       = -.8180E-09  +/-  0.1043E-08  ( 127.524 %)
Virtual ratio = -.1957E+00  +/-  0.4132E-03  (   0.211 %)
ABS virtual   = 0.4824E-06  +/-  0.8201E-09  (   0.170 %)
Born          = 0.1915E-05  +/-  0.2663E-08  (   0.139 %)
V  2          = -.8180E-09  +/-  0.1043E-08  ( 127.524 %)
B  2          = 0.1915E-05  +/-  0.2663E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8928E-06  +/-  0.2011E-08  (   0.225 %)
accumulated results Integral      = 0.5105E-06  +/-  0.2237E-08  (   0.438 %)
accumulated results Virtual       = -.8180E-09  +/-  0.1043E-08  ( 127.524 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4132E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4824E-06  +/-  0.8201E-09  (   0.170 %)
accumulated results Born          = 0.1915E-05  +/-  0.2663E-08  (   0.139 %)
accumulated results V  2          = -.8180E-09  +/-  0.1043E-08  ( 127.524 %)
accumulated results B  2          = 0.1915E-05  +/-  0.2663E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202547    23146  0.3231E-06  0.1830E-06  0.9956E+00
channel    2 :     1 T   209602    24358  0.3332E-06  0.1986E-06  0.9704E+00
channel    3 :     2 T    72535     8697  0.1174E-06  0.6088E-07  0.6512E+00
channel    4 :     2 T    75186     9333  0.1190E-06  0.6803E-07  0.8766E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9275111703285680E-007  +/-   2.0109733676242360E-009
 Final result:   5.1052192716782745E-007  +/-   2.2365240576832445E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408438
   Stability unknown:                                          0
   Stable PS point:                                       408438
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408438
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408438
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54628241    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65705919    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.39321518    
 Time spent in Integrated_CT :    9.72283936    
 Time spent in Virtuals :    589.888489    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.50391579    
 Time spent in N1body_prefactor :   0.788974404    
 Time spent in Adding_alphas_pdf :    10.5116119    
 Time spent in Reweight_scale :    46.2148247    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.1155281    
 Time spent in Applying_cuts :    5.67419052    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.2418900    
 Time spent in Other_tasks :    25.3464966    
 Time spent in Total :    763.605347    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_31, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18069
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          31
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 ,  97867
  with seed                   48
 Ranmar initialization seeds       30233       17047
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.384607D+04 0.384607D+04  1.00
 muF1, muF1_reference: 0.384607D+04 0.384607D+04  1.00
 muF2, muF2_reference: 0.384607D+04 0.384607D+04  1.00
 QES,  QES_reference:  0.384607D+04 0.384607D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5668754604529806E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4095607051152729E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4226582499339806E-005           OLP:   -1.4226582499339813E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0393360357265787E-006           OLP:   -5.0393360357288758E-006
  FINITE:
           OLP:   -9.5341263570075370E-004
           BORN:    4.1000426270988615E-003
  MOMENTA (Exyzm): 
           1   2403.3853962537555        0.0000000000000000        0.0000000000000000        2403.3853962537555        0.0000000000000000     
           2   2403.3853962537555       -0.0000000000000000       -0.0000000000000000       -2403.3853962537555        0.0000000000000000     
           3   2403.3853962537555       -1545.8979348330058       -1276.3893781293807        1325.6285653995851        0.0000000000000000     
           4   2403.3853962537555        1545.8979348330058        1276.3893781293807       -1325.6285653995851        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4226582499339806E-005           OLP:   -1.4226582499339813E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0393360357265778E-006           OLP:   -5.0393360357288758E-006
ABS integral  = 0.8931E-06  +/-  0.1844E-08  (   0.207 %)
Integral      = 0.5157E-06  +/-  0.2086E-08  (   0.404 %)
Virtual       = 0.1618E-09  +/-  0.1043E-08  ( 644.830 %)
Virtual ratio = -.1959E+00  +/-  0.4130E-03  (   0.211 %)
ABS virtual   = 0.4839E-06  +/-  0.8186E-09  (   0.169 %)
Born          = 0.1920E-05  +/-  0.2665E-08  (   0.139 %)
V  2          = 0.1618E-09  +/-  0.1043E-08  ( 644.830 %)
B  2          = 0.1920E-05  +/-  0.2665E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8931E-06  +/-  0.1844E-08  (   0.207 %)
accumulated results Integral      = 0.5157E-06  +/-  0.2086E-08  (   0.404 %)
accumulated results Virtual       = 0.1618E-09  +/-  0.1043E-08  ( 644.830 %)
accumulated results Virtual ratio = -.1959E+00  +/-  0.4130E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8186E-09  (   0.169 %)
accumulated results Born          = 0.1920E-05  +/-  0.2665E-08  (   0.139 %)
accumulated results V  2          = 0.1618E-09  +/-  0.1043E-08  ( 644.830 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2665E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203252    23146  0.3262E-06  0.1869E-06  0.1000E+01
channel    2 :     1 T   208808    24358  0.3316E-06  0.1994E-06  0.8937E+00
channel    3 :     2 T    72397     8697  0.1171E-06  0.6218E-07  0.9641E+00
channel    4 :     2 T    75422     9333  0.1182E-06  0.6725E-07  0.9376E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9312927625839425E-007  +/-   1.8443965999076400E-009
 Final result:   5.1572967447663016E-007  +/-   2.0860213774285690E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409002
   Stability unknown:                                          0
   Stable PS point:                                       409002
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409002
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409002
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54623282    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.68353176    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.37726784    
 Time spent in Integrated_CT :    9.68109131    
 Time spent in Virtuals :    589.638000    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.47117901    
 Time spent in N1body_prefactor :   0.800557971    
 Time spent in Adding_alphas_pdf :    10.4070129    
 Time spent in Reweight_scale :    46.0089722    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9799175    
 Time spent in Applying_cuts :    5.62436771    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.1440964    
 Time spent in Other_tasks :    25.1301880    
 Time spent in Total :    762.492432    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_32, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18105
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          32
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 101024
  with seed                   48
 Ranmar initialization seeds       30233       20204
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440266D+04 0.440266D+04  1.00
 muF1, muF1_reference: 0.440266D+04 0.440266D+04  1.00
 muF2, muF2_reference: 0.440266D+04 0.440266D+04  1.00
 QES,  QES_reference:  0.440266D+04 0.440266D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4707267780304912E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4079785637357731E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4237958018078414E-005           OLP:   -1.4237958018078427E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0189707444345316E-006           OLP:   -5.0189707444347374E-006
  FINITE:
           OLP:   -9.5576598004148321E-004
           BORN:    4.1033210048635714E-003
  MOMENTA (Exyzm): 
           1   2408.8995392938014        0.0000000000000000        0.0000000000000000        2408.8995392938014        0.0000000000000000     
           2   2408.8995392938014       -0.0000000000000000       -0.0000000000000000       -2408.8995392938014        0.0000000000000000     
           3   2408.8995392938014       -1827.2762597602573       -833.28312429498271        1330.2246786508081        0.0000000000000000     
           4   2408.8995392938014        1827.2762597602573        833.28312429498271       -1330.2246786508081        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4237958018078414E-005           OLP:   -1.4237958018078427E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0189707444345316E-006           OLP:   -5.0189707444347374E-006
ABS integral  = 0.8945E-06  +/-  0.1789E-08  (   0.200 %)
Integral      = 0.5176E-06  +/-  0.2038E-08  (   0.394 %)
Virtual       = 0.1067E-08  +/-  0.1046E-08  (  98.018 %)
Virtual ratio = -.1956E+00  +/-  0.4130E-03  (   0.211 %)
ABS virtual   = 0.4839E-06  +/-  0.8216E-09  (   0.170 %)
Born          = 0.1920E-05  +/-  0.2676E-08  (   0.139 %)
V  2          = 0.1067E-08  +/-  0.1046E-08  (  98.018 %)
B  2          = 0.1920E-05  +/-  0.2676E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8945E-06  +/-  0.1789E-08  (   0.200 %)
accumulated results Integral      = 0.5176E-06  +/-  0.2038E-08  (   0.394 %)
accumulated results Virtual       = 0.1067E-08  +/-  0.1046E-08  (  98.018 %)
accumulated results Virtual ratio = -.1956E+00  +/-  0.4130E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8216E-09  (   0.170 %)
accumulated results Born          = 0.1920E-05  +/-  0.2676E-08  (   0.139 %)
accumulated results V  2          = 0.1067E-08  +/-  0.1046E-08  (  98.018 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2676E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202255    23146  0.3237E-06  0.1841E-06  0.1000E+01
channel    2 :     1 T   209586    24358  0.3340E-06  0.2044E-06  0.9745E+00
channel    3 :     2 T    72412     8697  0.1173E-06  0.6096E-07  0.9276E+00
channel    4 :     2 T    75620     9333  0.1195E-06  0.6824E-07  0.9111E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9446138043139955E-007  +/-   1.7892964561519661E-009
 Final result:   5.1761299965285442E-007  +/-   2.0376568368604527E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408795
   Stability unknown:                                          0
   Stable PS point:                                       408795
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408795
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408795
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51517737    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.73004055    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.41222668    
 Time spent in Integrated_CT :    9.70300293    
 Time spent in Virtuals :    588.312927    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.59740162    
 Time spent in N1body_prefactor :   0.835735202    
 Time spent in Adding_alphas_pdf :    10.3275928    
 Time spent in Reweight_scale :    46.1320839    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8980236    
 Time spent in Applying_cuts :    5.67890406    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0593491    
 Time spent in Other_tasks :    25.1511841    
 Time spent in Total :    761.353638    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_33, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18072
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          33
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 104181
  with seed                   48
 Ranmar initialization seeds       30233       23361
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433228D+04 0.433228D+04  1.00
 muF1, muF1_reference: 0.433228D+04 0.433228D+04  1.00
 muF2, muF2_reference: 0.433228D+04 0.433228D+04  1.00
 QES,  QES_reference:  0.433228D+04 0.433228D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4820658530124082E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4060692632387237E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4184931497105703E-005           OLP:   -1.4184931497105709E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1132393884722681E-006           OLP:   -5.1132393884721596E-006
  FINITE:
           OLP:   -9.5231727850251017E-004
           BORN:    4.0880389793760763E-003
  MOMENTA (Exyzm): 
           1   2415.5740443592813        0.0000000000000000        0.0000000000000000        2415.5740443592813        0.0000000000000000     
           2   2415.5740443592813       -0.0000000000000000       -0.0000000000000000       -2415.5740443592813        0.0000000000000000     
           3   2415.5740443592813       -1372.6734923807189       -1480.1225900676850        1326.6508830392806        0.0000000000000000     
           4   2415.5740443592813        1372.6734923807189        1480.1225900676850       -1326.6508830392806        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4184931497105703E-005           OLP:   -1.4184931497105709E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1132393884722681E-006           OLP:   -5.1132393884721596E-006
ABS integral  = 0.8934E-06  +/-  0.1788E-08  (   0.200 %)
Integral      = 0.5115E-06  +/-  0.2039E-08  (   0.399 %)
Virtual       = -.1930E-08  +/-  0.1045E-08  (  54.125 %)
Virtual ratio = -.1960E+00  +/-  0.4127E-03  (   0.211 %)
ABS virtual   = 0.4839E-06  +/-  0.8206E-09  (   0.170 %)
Born          = 0.1920E-05  +/-  0.2671E-08  (   0.139 %)
V  2          = -.1930E-08  +/-  0.1045E-08  (  54.125 %)
B  2          = 0.1920E-05  +/-  0.2671E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8934E-06  +/-  0.1788E-08  (   0.200 %)
accumulated results Integral      = 0.5115E-06  +/-  0.2039E-08  (   0.399 %)
accumulated results Virtual       = -.1930E-08  +/-  0.1045E-08  (  54.125 %)
accumulated results Virtual ratio = -.1960E+00  +/-  0.4127E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8206E-09  (   0.170 %)
accumulated results Born          = 0.1920E-05  +/-  0.2671E-08  (   0.139 %)
accumulated results V  2          = -.1930E-08  +/-  0.1045E-08  (  54.125 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2671E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202706    23146  0.3257E-06  0.1843E-06  0.1000E+01
channel    2 :     1 T   208786    24358  0.3307E-06  0.1974E-06  0.9338E+00
channel    3 :     2 T    72561     8697  0.1164E-06  0.6229E-07  0.1000E+01
channel    4 :     2 T    75814     9333  0.1206E-06  0.6748E-07  0.9113E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9341316279352184E-007  +/-   1.7882328693750807E-009
 Final result:   5.1147409071327684E-007  +/-   2.0386703538122993E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409042
   Stability unknown:                                          0
   Stable PS point:                                       409042
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409042
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409042
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49148154    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.69773293    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.38717937    
 Time spent in Integrated_CT :    9.60534668    
 Time spent in Virtuals :    588.191956    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.38398552    
 Time spent in N1body_prefactor :   0.788536012    
 Time spent in Adding_alphas_pdf :    10.4568920    
 Time spent in Reweight_scale :    45.9516830    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8809376    
 Time spent in Applying_cuts :    5.65384865    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9112206    
 Time spent in Other_tasks :    25.0455933    
 Time spent in Total :    760.446350    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_34, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18079
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          34
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 107338
  with seed                   48
 Ranmar initialization seeds       30233       26518
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411490D+04 0.411490D+04  1.00
 muF1, muF1_reference: 0.411490D+04 0.411490D+04  1.00
 muF2, muF2_reference: 0.411490D+04 0.411490D+04  1.00
 QES,  QES_reference:  0.411490D+04 0.411490D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5185111891095488E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4091600491427281E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4277201351970284E-005           OLP:   -1.4277201351970281E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9484680693104200E-006           OLP:   -4.9484680693154768E-006
  FINITE:
           OLP:   -9.5850265916695633E-004
           BORN:    4.1146307724619115E-003
  MOMENTA (Exyzm): 
           1   2404.7803517722505        0.0000000000000000        0.0000000000000000        2404.7803517722505        0.0000000000000000     
           2   2404.7803517722505       -0.0000000000000000       -0.0000000000000000       -2404.7803517722505        0.0000000000000000     
           3   2404.7803517722505       -1383.9370359326078       -1445.6929489458148        1333.2886852487313        0.0000000000000000     
           4   2404.7803517722505        1383.9370359326078        1445.6929489458148       -1333.2886852487313        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4277201351970284E-005           OLP:   -1.4277201351970281E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9484680693104166E-006           OLP:   -4.9484680693154768E-006
ABS integral  = 0.8941E-06  +/-  0.1737E-08  (   0.194 %)
Integral      = 0.5178E-06  +/-  0.1991E-08  (   0.385 %)
Virtual       = 0.7956E-09  +/-  0.1049E-08  ( 131.844 %)
Virtual ratio = -.1948E+00  +/-  0.4133E-03  (   0.212 %)
ABS virtual   = 0.4852E-06  +/-  0.8245E-09  (   0.170 %)
Born          = 0.1923E-05  +/-  0.2684E-08  (   0.140 %)
V  2          = 0.7956E-09  +/-  0.1049E-08  ( 131.844 %)
B  2          = 0.1923E-05  +/-  0.2684E-08  (   0.140 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8941E-06  +/-  0.1737E-08  (   0.194 %)
accumulated results Integral      = 0.5178E-06  +/-  0.1991E-08  (   0.385 %)
accumulated results Virtual       = 0.7956E-09  +/-  0.1049E-08  ( 131.844 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4133E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4852E-06  +/-  0.8245E-09  (   0.170 %)
accumulated results Born          = 0.1923E-05  +/-  0.2684E-08  (   0.140 %)
accumulated results V  2          = 0.7956E-09  +/-  0.1049E-08  ( 131.844 %)
accumulated results B  2          = 0.1923E-05  +/-  0.2684E-08  (   0.140 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202722    23146  0.3237E-06  0.1858E-06  0.1000E+01
channel    2 :     1 T   209499    24358  0.3338E-06  0.2001E-06  0.9833E+00
channel    3 :     2 T    72388     8697  0.1174E-06  0.6262E-07  0.1000E+01
channel    4 :     2 T    75264     9333  0.1193E-06  0.6919E-07  0.9332E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9414059566088594E-007  +/-   1.7365653292437179E-009
 Final result:   5.1775878745362992E-007  +/-   1.9911876644385932E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408983
   Stability unknown:                                          0
   Stable PS point:                                       408983
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408983
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408983
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51218247    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.63051796    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.37995720    
 Time spent in Integrated_CT :    9.70495605    
 Time spent in Virtuals :    591.835754    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.42527580    
 Time spent in N1body_prefactor :   0.802488446    
 Time spent in Adding_alphas_pdf :    10.4268475    
 Time spent in Reweight_scale :    45.5963364    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8798838    
 Time spent in Applying_cuts :    5.58041954    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0135994    
 Time spent in Other_tasks :    25.1437988    
 Time spent in Total :    763.932007    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_35, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18075
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          35
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 110495
  with seed                   48
 Ranmar initialization seeds       30233       29675
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.428555D+04 0.428555D+04  1.00
 muF1, muF1_reference: 0.428555D+04 0.428555D+04  1.00
 muF2, muF2_reference: 0.428555D+04 0.428555D+04  1.00
 QES,  QES_reference:  0.428555D+04 0.428555D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4897151210684312E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4077572253644433E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4205904308209850E-005           OLP:   -1.4205904308209814E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0761117911835119E-006           OLP:   -5.0761117911829944E-006
  FINITE:
           OLP:   -9.5292676291534460E-004
           BORN:    4.0940832573705338E-003
  MOMENTA (Exyzm): 
           1   2409.6721610472337        0.0000000000000000        0.0000000000000000        2409.6721610472337        0.0000000000000000     
           2   2409.6721610472337       -0.0000000000000000       -0.0000000000000000       -2409.6721610472337        0.0000000000000000     
           3   2409.6721610472337       -1336.4663668923545       -1503.7865829284228        1326.2742879570781        0.0000000000000000     
           4   2409.6721610472337        1336.4663668923545        1503.7865829284228       -1326.2742879570781        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4205904308209850E-005           OLP:   -1.4205904308209814E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0761117911835127E-006           OLP:   -5.0761117911829944E-006
 Error #15 in genps_fks.f  -1.1175870895385742E-006           4
ABS integral  = 0.8925E-06  +/-  0.1762E-08  (   0.197 %)
Integral      = 0.5152E-06  +/-  0.2014E-08  (   0.391 %)
Virtual       = -.4758E-09  +/-  0.1043E-08  ( 219.145 %)
Virtual ratio = -.1952E+00  +/-  0.4127E-03  (   0.211 %)
ABS virtual   = 0.4835E-06  +/-  0.8183E-09  (   0.169 %)
Born          = 0.1919E-05  +/-  0.2661E-08  (   0.139 %)
V  2          = -.4758E-09  +/-  0.1043E-08  ( 219.145 %)
B  2          = 0.1919E-05  +/-  0.2661E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8925E-06  +/-  0.1762E-08  (   0.197 %)
accumulated results Integral      = 0.5152E-06  +/-  0.2014E-08  (   0.391 %)
accumulated results Virtual       = -.4758E-09  +/-  0.1043E-08  ( 219.145 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4127E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8183E-09  (   0.169 %)
accumulated results Born          = 0.1919E-05  +/-  0.2661E-08  (   0.139 %)
accumulated results V  2          = -.4758E-09  +/-  0.1043E-08  ( 219.145 %)
accumulated results B  2          = 0.1919E-05  +/-  0.2661E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203309    23146  0.3259E-06  0.1838E-06  0.1000E+01
channel    2 :     1 T   208676    24358  0.3318E-06  0.1991E-06  0.9647E+00
channel    3 :     2 T    72605     8697  0.1159E-06  0.6256E-07  0.1000E+01
channel    4 :     2 T    75281     9333  0.1189E-06  0.6974E-07  0.9309E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9251131391851235E-007  +/-   1.7624266212493882E-009
 Final result:   5.1517981443058549E-007  +/-   2.0136721496934510E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408815
   Stability unknown:                                          0
   Stable PS point:                                       408815
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408815
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408815
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52404809    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.68283939    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.38013649    
 Time spent in Integrated_CT :    9.62695312    
 Time spent in Virtuals :    589.362549    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.51810169    
 Time spent in N1body_prefactor :   0.801872134    
 Time spent in Adding_alphas_pdf :    10.2579384    
 Time spent in Reweight_scale :    45.9196930    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9108257    
 Time spent in Applying_cuts :    5.57527065    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.8907166    
 Time spent in Other_tasks :    25.0625610    
 Time spent in Total :    762.513489    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_36, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18113
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          36
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 113652
  with seed                   48
 Ranmar initialization seeds       30233        2751
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439664D+04 0.439664D+04  1.00
 muF1, muF1_reference: 0.439664D+04 0.439664D+04  1.00
 muF2, muF2_reference: 0.439664D+04 0.439664D+04  1.00
 QES,  QES_reference:  0.439664D+04 0.439664D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4716878307487938E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4075666662447678E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4197754216648530E-005           OLP:   -1.4197754216648538E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0905714753480619E-006           OLP:   -5.0905714753482186E-006
  FINITE:
           OLP:   -9.5231365412386303E-004
           BORN:    4.0917344344668094E-003
  MOMENTA (Exyzm): 
           1   2410.3375793481646        0.0000000000000000        0.0000000000000000        2410.3375793481646        0.0000000000000000     
           2   2410.3375793481646       -0.0000000000000000       -0.0000000000000000       -2410.3375793481646        0.0000000000000000     
           3   2410.3375793481646       -1265.1200055151826       -1565.9431412176270        1325.5265733046265        0.0000000000000000     
           4   2410.3375793481646        1265.1200055151826        1565.9431412176270       -1325.5265733046265        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4197754216648530E-005           OLP:   -1.4197754216648538E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0905714753480585E-006           OLP:   -5.0905714753482186E-006
ABS integral  = 0.8935E-06  +/-  0.1849E-08  (   0.207 %)
Integral      = 0.5125E-06  +/-  0.2092E-08  (   0.408 %)
Virtual       = -.3843E-11  +/-  0.1045E-08  ( ******* %)
Virtual ratio = -.1956E+00  +/-  0.4132E-03  (   0.211 %)
ABS virtual   = 0.4840E-06  +/-  0.8201E-09  (   0.169 %)
Born          = 0.1919E-05  +/-  0.2665E-08  (   0.139 %)
V  2          = -.3843E-11  +/-  0.1045E-08  ( ******* %)
B  2          = 0.1919E-05  +/-  0.2665E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8935E-06  +/-  0.1849E-08  (   0.207 %)
accumulated results Integral      = 0.5125E-06  +/-  0.2092E-08  (   0.408 %)
accumulated results Virtual       = -.3843E-11  +/-  0.1045E-08  ( ******* %)
accumulated results Virtual ratio = -.1956E+00  +/-  0.4132E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8201E-09  (   0.169 %)
accumulated results Born          = 0.1919E-05  +/-  0.2665E-08  (   0.139 %)
accumulated results V  2          = -.3843E-11  +/-  0.1045E-08  ( ******* %)
accumulated results B  2          = 0.1919E-05  +/-  0.2665E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202425    23146  0.3246E-06  0.1835E-06  0.1000E+01
channel    2 :     1 T   209642    24358  0.3332E-06  0.1994E-06  0.9473E+00
channel    3 :     2 T    72617     8697  0.1170E-06  0.6193E-07  0.8502E+00
channel    4 :     2 T    75187     9333  0.1187E-06  0.6769E-07  0.9336E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9351642320955814E-007  +/-   1.8487154968190699E-009
 Final result:   5.1245527196000006E-007  +/-   2.0915745580543886E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408934
   Stability unknown:                                          0
   Stable PS point:                                       408934
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408934
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408934
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54883933    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.60919952    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.35088778    
 Time spent in Integrated_CT :    9.64447021    
 Time spent in Virtuals :    590.909180    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.44667816    
 Time spent in N1body_prefactor :   0.833810210    
 Time spent in Adding_alphas_pdf :    10.4211836    
 Time spent in Reweight_scale :    46.0492363    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.1420050    
 Time spent in Applying_cuts :    5.61303902    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0359039    
 Time spent in Other_tasks :    25.0749512    
 Time spent in Total :    763.679382    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_37, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18101
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          37
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 116809
  with seed                   48
 Ranmar initialization seeds       30233        5908
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432321D+04 0.432321D+04  1.00
 muF1, muF1_reference: 0.432321D+04 0.432321D+04  1.00
 muF2, muF2_reference: 0.432321D+04 0.432321D+04  1.00
 QES,  QES_reference:  0.432321D+04 0.432321D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4835426522294315E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4063622764973483E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4165334337789161E-005           OLP:   -1.4165334337789168E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1478155771058471E-006           OLP:   -5.1478155771057217E-006
  FINITE:
           OLP:   -9.5023458027380069E-004
           BORN:    4.0823911585750093E-003
  MOMENTA (Exyzm): 
           1   2414.5482995055449        0.0000000000000000        0.0000000000000000        2414.5482995055449        0.0000000000000000     
           2   2414.5482995055449       -0.0000000000000000       -0.0000000000000000       -2414.5482995055449        0.0000000000000000     
           3   2414.5482995055449       -1019.6480402279059       -1743.2651178327692        1323.4002016215695        0.0000000000000000     
           4   2414.5482995055449        1019.6480402279059        1743.2651178327692       -1323.4002016215695        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4165334337789161E-005           OLP:   -1.4165334337789168E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1478155771058479E-006           OLP:   -5.1478155771057217E-006
 Error #15 in genps_fks.f  -1.1920928955078125E-006           3
ABS integral  = 0.8917E-06  +/-  0.1758E-08  (   0.197 %)
Integral      = 0.5128E-06  +/-  0.2010E-08  (   0.392 %)
Virtual       = -.4241E-09  +/-  0.1041E-08  ( 245.417 %)
Virtual ratio = -.1957E+00  +/-  0.4131E-03  (   0.211 %)
ABS virtual   = 0.4832E-06  +/-  0.8162E-09  (   0.169 %)
Born          = 0.1918E-05  +/-  0.2661E-08  (   0.139 %)
V  2          = -.4241E-09  +/-  0.1041E-08  ( 245.417 %)
B  2          = 0.1918E-05  +/-  0.2661E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8917E-06  +/-  0.1758E-08  (   0.197 %)
accumulated results Integral      = 0.5128E-06  +/-  0.2010E-08  (   0.392 %)
accumulated results Virtual       = -.4241E-09  +/-  0.1041E-08  ( 245.417 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4131E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8162E-09  (   0.169 %)
accumulated results Born          = 0.1918E-05  +/-  0.2661E-08  (   0.139 %)
accumulated results V  2          = -.4241E-09  +/-  0.1041E-08  ( 245.417 %)
accumulated results B  2          = 0.1918E-05  +/-  0.2661E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203101    23146  0.3256E-06  0.1840E-06  0.1000E+01
channel    2 :     1 T   209197    24358  0.3313E-06  0.2000E-06  0.9752E+00
channel    3 :     2 T    72538     8697  0.1170E-06  0.6286E-07  0.1000E+01
channel    4 :     2 T    75040     9333  0.1177E-06  0.6599E-07  0.9112E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9169144001408674E-007  +/-   1.7577912154667556E-009
 Final result:   5.1280272957788467E-007  +/-   2.0100521591282643E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409019
   Stability unknown:                                          0
   Stable PS point:                                       409019
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409019
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409019
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54557884    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.67216682    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.42905569    
 Time spent in Integrated_CT :    9.73486328    
 Time spent in Virtuals :    590.370178    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.51356506    
 Time spent in N1body_prefactor :   0.795647740    
 Time spent in Adding_alphas_pdf :    10.4368553    
 Time spent in Reweight_scale :    45.7219772    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8868637    
 Time spent in Applying_cuts :    5.70541286    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0272675    
 Time spent in Other_tasks :    25.4301147    
 Time spent in Total :    763.269470    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_38, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18076
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          38
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 119966
  with seed                   48
 Ranmar initialization seeds       30233        9065
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438701D+04 0.438701D+04  1.00
 muF1, muF1_reference: 0.438701D+04 0.438701D+04  1.00
 muF2, muF2_reference: 0.438701D+04 0.438701D+04  1.00
 QES,  QES_reference:  0.438701D+04 0.438701D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4732302131797712E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4062698911034910E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4179615656239533E-005           OLP:   -1.4179615656239542E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1226364068720857E-006           OLP:   -5.1226364068735332E-006
  FINITE:
           OLP:   -9.5165423248559644E-004
           BORN:    4.0865069758783158E-003
  MOMENTA (Exyzm): 
           1   2414.8716547950016        0.0000000000000000        0.0000000000000000        2414.8716547950016        0.0000000000000000     
           2   2414.8716547950016       -0.0000000000000000       -0.0000000000000000       -2414.8716547950016        0.0000000000000000     
           3   2414.8716547950016       -1386.2936322419669       -1467.2249649927994        1325.5361090666679        0.0000000000000000     
           4   2414.8716547950016        1386.2936322419669        1467.2249649927994       -1325.5361090666679        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4179615656239533E-005           OLP:   -1.4179615656239542E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1226364068720865E-006           OLP:   -5.1226364068735332E-006
ABS integral  = 0.8919E-06  +/-  0.1776E-08  (   0.199 %)
Integral      = 0.5124E-06  +/-  0.2026E-08  (   0.395 %)
Virtual       = -.1471E-08  +/-  0.1043E-08  (  70.878 %)
Virtual ratio = -.1958E+00  +/-  0.4134E-03  (   0.211 %)
ABS virtual   = 0.4832E-06  +/-  0.8186E-09  (   0.169 %)
Born          = 0.1917E-05  +/-  0.2660E-08  (   0.139 %)
V  2          = -.1471E-08  +/-  0.1043E-08  (  70.878 %)
B  2          = 0.1917E-05  +/-  0.2660E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8919E-06  +/-  0.1776E-08  (   0.199 %)
accumulated results Integral      = 0.5124E-06  +/-  0.2026E-08  (   0.395 %)
accumulated results Virtual       = -.1471E-08  +/-  0.1043E-08  (  70.878 %)
accumulated results Virtual ratio = -.1958E+00  +/-  0.4134E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8186E-09  (   0.169 %)
accumulated results Born          = 0.1917E-05  +/-  0.2660E-08  (   0.139 %)
accumulated results V  2          = -.1471E-08  +/-  0.1043E-08  (  70.878 %)
accumulated results B  2          = 0.1917E-05  +/-  0.2660E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203056    23146  0.3231E-06  0.1841E-06  0.1000E+01
channel    2 :     1 T   209254    24358  0.3332E-06  0.2002E-06  0.9635E+00
channel    3 :     2 T    72121     8697  0.1160E-06  0.6066E-07  0.9900E+00
channel    4 :     2 T    75443     9333  0.1196E-06  0.6736E-07  0.9241E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9191843726606750E-007  +/-   1.7755540950568051E-009
 Final result:   5.1238337879976778E-007  +/-   2.0259721374770638E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408616
   Stability unknown:                                          0
   Stable PS point:                                       408616
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408616
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408616
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.55510235    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.62348938    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.43111134    
 Time spent in Integrated_CT :    9.75903320    
 Time spent in Virtuals :    591.122375    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.49745274    
 Time spent in N1body_prefactor :   0.790748894    
 Time spent in Adding_alphas_pdf :    10.5049934    
 Time spent in Reweight_scale :    45.8682785    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0634270    
 Time spent in Applying_cuts :    5.70329762    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0955582    
 Time spent in Other_tasks :    25.3402100    
 Time spent in Total :    764.355103    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_39, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18078
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          39
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 123123
  with seed                   48
 Ranmar initialization seeds       30233       12222
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440818D+04 0.440818D+04  1.00
 muF1, muF1_reference: 0.440818D+04 0.440818D+04  1.00
 muF2, muF2_reference: 0.440818D+04 0.440818D+04  1.00
 QES,  QES_reference:  0.440818D+04 0.440818D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4698473620849332E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4080241045062639E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4304081064766510E-005           OLP:   -1.4304081064766516E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8997692969008048E-006           OLP:   -4.8997692969008709E-006
  FINITE:
           OLP:   -9.6196182572486316E-004
           BORN:    4.1223773952558124E-003
  MOMENTA (Exyzm): 
           1   2408.7406076742523        0.0000000000000000        0.0000000000000000        2408.7406076742523        0.0000000000000000     
           2   2408.7406076742523       -0.0000000000000000       -0.0000000000000000       -2408.7406076742523        0.0000000000000000     
           3   2408.7406076742523       -1996.4484316487467       -151.37871035057157        1339.1450484838390        0.0000000000000000     
           4   2408.7406076742523        1996.4484316487467        151.37871035057157       -1339.1450484838390        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4304081064766510E-005           OLP:   -1.4304081064766516E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8997692969008073E-006           OLP:   -4.8997692969008709E-006
ABS integral  = 0.8938E-06  +/-  0.1875E-08  (   0.210 %)
Integral      = 0.5125E-06  +/-  0.2115E-08  (   0.413 %)
Virtual       = -.1238E-08  +/-  0.1046E-08  (  84.530 %)
Virtual ratio = -.1958E+00  +/-  0.4129E-03  (   0.211 %)
ABS virtual   = 0.4841E-06  +/-  0.8222E-09  (   0.170 %)
Born          = 0.1921E-05  +/-  0.2672E-08  (   0.139 %)
V  2          = -.1238E-08  +/-  0.1046E-08  (  84.530 %)
B  2          = 0.1921E-05  +/-  0.2672E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8938E-06  +/-  0.1875E-08  (   0.210 %)
accumulated results Integral      = 0.5125E-06  +/-  0.2115E-08  (   0.413 %)
accumulated results Virtual       = -.1238E-08  +/-  0.1046E-08  (  84.530 %)
accumulated results Virtual ratio = -.1958E+00  +/-  0.4129E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8222E-09  (   0.170 %)
accumulated results Born          = 0.1921E-05  +/-  0.2672E-08  (   0.139 %)
accumulated results V  2          = -.1238E-08  +/-  0.1046E-08  (  84.530 %)
accumulated results B  2          = 0.1921E-05  +/-  0.2672E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202785    23146  0.3267E-06  0.1829E-06  0.1000E+01
channel    2 :     1 T   209715    24358  0.3322E-06  0.1991E-06  0.9097E+00
channel    3 :     2 T    71954     8697  0.1159E-06  0.6197E-07  0.9111E+00
channel    4 :     2 T    75421     9333  0.1190E-06  0.6845E-07  0.9172E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9382809719809939E-007  +/-   1.8748030705144815E-009
 Final result:   5.1245460012185598E-007  +/-   2.1149037613901188E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408734
   Stability unknown:                                          0
   Stable PS point:                                       408734
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408734
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408734
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51645517    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.68396950    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.43896532    
 Time spent in Integrated_CT :    9.60485840    
 Time spent in Virtuals :    589.358154    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.36336899    
 Time spent in N1body_prefactor :   0.785127342    
 Time spent in Adding_alphas_pdf :    10.4077940    
 Time spent in Reweight_scale :    45.6480179    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.1889715    
 Time spent in Applying_cuts :    5.60394144    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9894295    
 Time spent in Other_tasks :    25.2014771    
 Time spent in Total :    761.790527    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_40, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18081
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          40
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 126280
  with seed                   48
 Ranmar initialization seeds       30233       15379
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442791D+04 0.442791D+04  1.00
 muF1, muF1_reference: 0.442791D+04 0.442791D+04  1.00
 muF2, muF2_reference: 0.442791D+04 0.442791D+04  1.00
 QES,  QES_reference:  0.442791D+04 0.442791D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4667108584399303E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4080098210200507E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
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 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4203227551261804E-005           OLP:   -1.4203227551261797E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0808711309488353E-006           OLP:   -5.0808711309489285E-006
  FINITE:
           OLP:   -9.5247036790162666E-004
           BORN:    4.0933118270154306E-003
  MOMENTA (Exyzm): 
           1   2408.7904539148726        0.0000000000000000        0.0000000000000000        2408.7904539148726        0.0000000000000000     
           2   2408.7904539148726       -0.0000000000000000       -0.0000000000000000       -2408.7904539148726        0.0000000000000000     
           3   2408.7904539148726       -1942.1689965823284       -522.97711019302017        1325.4229444973280        0.0000000000000000     
           4   2408.7904539148726        1942.1689965823284        522.97711019302017       -1325.4229444973280        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4203227551261804E-005           OLP:   -1.4203227551261797E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0808711309488345E-006           OLP:   -5.0808711309489285E-006
 Error #15 in genps_fks.f  -1.0076910257339478E-006           4
ABS integral  = 0.8963E-06  +/-  0.1814E-08  (   0.202 %)
Integral      = 0.5131E-06  +/-  0.2063E-08  (   0.402 %)
Virtual       = 0.1135E-09  +/-  0.1047E-08  ( 921.937 %)
Virtual ratio = -.1952E+00  +/-  0.4130E-03  (   0.212 %)
ABS virtual   = 0.4844E-06  +/-  0.8227E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2676E-08  (   0.139 %)
V  2          = 0.1135E-09  +/-  0.1047E-08  ( 921.937 %)
B  2          = 0.1922E-05  +/-  0.2676E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8963E-06  +/-  0.1814E-08  (   0.202 %)
accumulated results Integral      = 0.5131E-06  +/-  0.2063E-08  (   0.402 %)
accumulated results Virtual       = 0.1135E-09  +/-  0.1047E-08  ( 921.937 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4130E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8227E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2676E-08  (   0.139 %)
accumulated results V  2          = 0.1135E-09  +/-  0.1047E-08  ( 921.937 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2676E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202464    23146  0.3253E-06  0.1856E-06  0.1000E+01
channel    2 :     1 T   208874    24358  0.3323E-06  0.1981E-06  0.9708E+00
channel    3 :     2 T    72689     8697  0.1173E-06  0.6163E-07  0.9633E+00
channel    4 :     2 T    75841     9333  0.1215E-06  0.6779E-07  0.8861E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9628830898694907E-007  +/-   1.8138261667844390E-009
 Final result:   5.1312513861646394E-007  +/-   2.0626523291225598E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408855
   Stability unknown:                                          0
   Stable PS point:                                       408855
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408855
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408855
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52149677    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.63245392    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.44341373    
 Time spent in Integrated_CT :    9.62750244    
 Time spent in Virtuals :    590.283203    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.45149040    
 Time spent in N1body_prefactor :   0.801671505    
 Time spent in Adding_alphas_pdf :    10.4277678    
 Time spent in Reweight_scale :    45.6855698    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8249407    
 Time spent in Applying_cuts :    5.57709837    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0741806    
 Time spent in Other_tasks :    25.2388916    
 Time spent in Total :    762.589661    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_41, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18086
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          41
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 129437
  with seed                   48
 Ranmar initialization seeds       30233       18536
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.428807D+04 0.428807D+04  1.00
 muF1, muF1_reference: 0.428807D+04 0.428807D+04  1.00
 muF2, muF2_reference: 0.428807D+04 0.428807D+04  1.00
 QES,  QES_reference:  0.428807D+04 0.428807D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4892998368017535E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4089066957408967E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4145910229954473E-005           OLP:   -1.4145910229954473E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1819866942975999E-006           OLP:   -5.1819866942976507E-006
  FINITE:
           OLP:   -9.4635664913021440E-004
           BORN:    4.0767932105000388E-003
  MOMENTA (Exyzm): 
           1   2405.6629461625957        0.0000000000000000        0.0000000000000000        2405.6629461625957        0.0000000000000000     
           2   2405.6629461625957       -0.0000000000000000       -0.0000000000000000       -2405.6629461625957        0.0000000000000000     
           3   2405.6629461625957       -1900.5600497237006       -666.01017837869904        1315.8708714117497        0.0000000000000000     
           4   2405.6629461625957        1900.5600497237006        666.01017837869904       -1315.8708714117497        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4145910229954473E-005           OLP:   -1.4145910229954473E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1819866942976007E-006           OLP:   -5.1819866942976507E-006
 Error #15 in genps_fks.f  -1.0903177098953165E-006           4
ABS integral  = 0.8947E-06  +/-  0.1827E-08  (   0.204 %)
Integral      = 0.5120E-06  +/-  0.2074E-08  (   0.405 %)
Virtual       = -.8479E-09  +/-  0.1046E-08  ( 123.334 %)
Virtual ratio = -.1958E+00  +/-  0.4129E-03  (   0.211 %)
ABS virtual   = 0.4840E-06  +/-  0.8216E-09  (   0.170 %)
Born          = 0.1920E-05  +/-  0.2670E-08  (   0.139 %)
V  2          = -.8479E-09  +/-  0.1046E-08  ( 123.334 %)
B  2          = 0.1920E-05  +/-  0.2670E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8947E-06  +/-  0.1827E-08  (   0.204 %)
accumulated results Integral      = 0.5120E-06  +/-  0.2074E-08  (   0.405 %)
accumulated results Virtual       = -.8479E-09  +/-  0.1046E-08  ( 123.334 %)
accumulated results Virtual ratio = -.1958E+00  +/-  0.4129E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8216E-09  (   0.170 %)
accumulated results Born          = 0.1920E-05  +/-  0.2670E-08  (   0.139 %)
accumulated results V  2          = -.8479E-09  +/-  0.1046E-08  ( 123.334 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2670E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202246    23146  0.3249E-06  0.1827E-06  0.9972E+00
channel    2 :     1 T   209417    24358  0.3333E-06  0.1997E-06  0.9310E+00
channel    3 :     2 T    72722     8697  0.1167E-06  0.6250E-07  0.1000E+01
channel    4 :     2 T    75491     9333  0.1199E-06  0.6717E-07  0.9155E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9471672048148896E-007  +/-   1.8272905350206696E-009
 Final result:   5.1201667683191464E-007  +/-   2.0737796778862211E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408669
   Stability unknown:                                          0
   Stable PS point:                                       408669
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408669
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408669
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53700280    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65075159    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.39067650    
 Time spent in Integrated_CT :    9.62969971    
 Time spent in Virtuals :    590.723999    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.47967720    
 Time spent in N1body_prefactor :   0.853457868    
 Time spent in Adding_alphas_pdf :    10.3904953    
 Time spent in Reweight_scale :    45.7122955    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.3094139    
 Time spent in Applying_cuts :    5.75250196    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0528107    
 Time spent in Other_tasks :    25.5437012    
 Time spent in Total :    764.026428    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_42, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18087
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          42
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 132594
  with seed                   48
 Ranmar initialization seeds       30233       21693
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424847D+04 0.424847D+04  1.00
 muF1, muF1_reference: 0.424847D+04 0.424847D+04  1.00
 muF2, muF2_reference: 0.424847D+04 0.424847D+04  1.00
 QES,  QES_reference:  0.424847D+04 0.424847D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4958557379690788E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4084750374680944E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4212135628204060E-005           OLP:   -1.4212135628204037E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0650516960556832E-006           OLP:   -5.0650516960558086E-006
  FINITE:
           OLP:   -9.5293230879594680E-004
           BORN:    4.0958790981917952E-003
  MOMENTA (Exyzm): 
           1   2407.1675835655915        0.0000000000000000        0.0000000000000000        2407.1675835655915        0.0000000000000000     
           2   2407.1675835655915       -0.0000000000000000       -0.0000000000000000       -2407.1675835655915        0.0000000000000000     
           3   2407.1675835655915       -1944.0824357884328       -507.34485010425476        1325.7452475119851        0.0000000000000000     
           4   2407.1675835655915        1944.0824357884328        507.34485010425476       -1325.7452475119851        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4212135628204060E-005           OLP:   -1.4212135628204037E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0650516960556807E-006           OLP:   -5.0650516960558086E-006
 Error #15 in genps_fks.f  -1.0691583156585693E-006           4
ABS integral  = 0.8945E-06  +/-  0.1905E-08  (   0.213 %)
Integral      = 0.5157E-06  +/-  0.2140E-08  (   0.415 %)
Virtual       = 0.1259E-08  +/-  0.1047E-08  (  83.198 %)
Virtual ratio = -.1948E+00  +/-  0.4130E-03  (   0.212 %)
ABS virtual   = 0.4843E-06  +/-  0.8236E-09  (   0.170 %)
Born          = 0.1920E-05  +/-  0.2671E-08  (   0.139 %)
V  2          = 0.1259E-08  +/-  0.1047E-08  (  83.198 %)
B  2          = 0.1920E-05  +/-  0.2671E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8945E-06  +/-  0.1905E-08  (   0.213 %)
accumulated results Integral      = 0.5157E-06  +/-  0.2140E-08  (   0.415 %)
accumulated results Virtual       = 0.1259E-08  +/-  0.1047E-08  (  83.198 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4130E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8236E-09  (   0.170 %)
accumulated results Born          = 0.1920E-05  +/-  0.2671E-08  (   0.139 %)
accumulated results V  2          = 0.1259E-08  +/-  0.1047E-08  (  83.198 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2671E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202729    23146  0.3241E-06  0.1855E-06  0.8860E+00
channel    2 :     1 T   209359    24358  0.3337E-06  0.1997E-06  0.9736E+00
channel    3 :     2 T    72382     8697  0.1172E-06  0.6363E-07  0.9953E+00
channel    4 :     2 T    75406     9333  0.1195E-06  0.6680E-07  0.9052E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9449546672903198E-007  +/-   1.9045711734588746E-009
 Final result:   5.1565958449283598E-007  +/-   2.1404599915865953E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408823
   Stability unknown:                                          0
   Stable PS point:                                       408823
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408823
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408823
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50682724    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.74330378    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.36593390    
 Time spent in Integrated_CT :    9.63031006    
 Time spent in Virtuals :    588.423950    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.40780449    
 Time spent in N1body_prefactor :   0.805956781    
 Time spent in Adding_alphas_pdf :    10.4389734    
 Time spent in Reweight_scale :    46.1519241    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0016365    
 Time spent in Applying_cuts :    5.59237194    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9943619    
 Time spent in Other_tasks :    25.0383911    
 Time spent in Total :    761.101746    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_43, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18103
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          43
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 135751
  with seed                   48
 Ranmar initialization seeds       30233       24850
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437379D+04 0.437379D+04  1.00
 muF1, muF1_reference: 0.437379D+04 0.437379D+04  1.00
 muF2, muF2_reference: 0.437379D+04 0.437379D+04  1.00
 QES,  QES_reference:  0.437379D+04 0.437379D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4753525331530415E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4074905851048478E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4325803073900651E-005           OLP:   -1.4325803073900656E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8602080118971570E-006           OLP:   -4.8602080118974382E-006
  FINITE:
           OLP:   -9.6444744626700382E-004
           BORN:    4.1286375890444713E-003
  MOMENTA (Exyzm): 
           1   2410.6033103430777        0.0000000000000000        0.0000000000000000        2410.6033103430777        0.0000000000000000     
           2   2410.6033103430777       -0.0000000000000000       -0.0000000000000000       -2410.6033103430777        0.0000000000000000     
           3   2410.6033103430777       -1083.7000563196409       -1683.0281710395950        1343.1376263275956        0.0000000000000000     
           4   2410.6033103430777        1083.7000563196409        1683.0281710395950       -1343.1376263275956        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4325803073900651E-005           OLP:   -1.4325803073900656E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8602080118971570E-006           OLP:   -4.8602080118974382E-006
ABS integral  = 0.8966E-06  +/-  0.1929E-08  (   0.215 %)
Integral      = 0.5134E-06  +/-  0.2165E-08  (   0.422 %)
Virtual       = -.4269E-09  +/-  0.1047E-08  ( 245.146 %)
Virtual ratio = -.1955E+00  +/-  0.4125E-03  (   0.211 %)
ABS virtual   = 0.4845E-06  +/-  0.8222E-09  (   0.170 %)
Born          = 0.1923E-05  +/-  0.2667E-08  (   0.139 %)
V  2          = -.4269E-09  +/-  0.1047E-08  ( 245.146 %)
B  2          = 0.1923E-05  +/-  0.2667E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8966E-06  +/-  0.1929E-08  (   0.215 %)
accumulated results Integral      = 0.5134E-06  +/-  0.2165E-08  (   0.422 %)
accumulated results Virtual       = -.4269E-09  +/-  0.1047E-08  ( 245.146 %)
accumulated results Virtual ratio = -.1955E+00  +/-  0.4125E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4845E-06  +/-  0.8222E-09  (   0.170 %)
accumulated results Born          = 0.1923E-05  +/-  0.2667E-08  (   0.139 %)
accumulated results V  2          = -.4269E-09  +/-  0.1047E-08  ( 245.146 %)
accumulated results B  2          = 0.1923E-05  +/-  0.2667E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202618    23146  0.3261E-06  0.1835E-06  0.9243E+00
channel    2 :     1 T   209482    24358  0.3337E-06  0.2002E-06  0.9593E+00
channel    3 :     2 T    72554     8697  0.1172E-06  0.6291E-07  0.1000E+01
channel    4 :     2 T    75215     9333  0.1196E-06  0.6681E-07  0.7852E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9655947183228321E-007  +/-   1.9291412567553440E-009
 Final result:   5.1342183119299680E-007  +/-   2.1648278427659337E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409193
   Stability unknown:                                          0
   Stable PS point:                                       409193
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409193
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409193
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50761616    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65120602    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.34860182    
 Time spent in Integrated_CT :    9.55853271    
 Time spent in Virtuals :    588.567871    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.54479122    
 Time spent in N1body_prefactor :   0.814741850    
 Time spent in Adding_alphas_pdf :    10.3814907    
 Time spent in Reweight_scale :    45.9807167    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7539845    
 Time spent in Applying_cuts :    5.55621910    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9357758    
 Time spent in Other_tasks :    24.9499512    
 Time spent in Total :    760.551514    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_44, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18102
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          44
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 138908
  with seed                   48
 Ranmar initialization seeds       30233       28007
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437850D+04 0.437850D+04  1.00
 muF1, muF1_reference: 0.437850D+04 0.437850D+04  1.00
 muF2, muF2_reference: 0.437850D+04 0.437850D+04  1.00
 QES,  QES_reference:  0.437850D+04 0.437850D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4745942593796730E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4090736117524661E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4271700994114009E-005           OLP:   -1.4271700994113999E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9583893112933289E-006           OLP:   -4.9583893112933679E-006
  FINITE:
           OLP:   -9.5805486235612017E-004
           BORN:    4.1130455919256813E-003
  MOMENTA (Exyzm): 
           1   2405.0814258459463        0.0000000000000000        0.0000000000000000        2405.0814258459463        0.0000000000000000     
           2   2405.0814258459463       -0.0000000000000000       -0.0000000000000000       -2405.0814258459463        0.0000000000000000     
           3   2405.0814258459463       -1104.5920374512350       -1669.7854395722015        1332.7076504399495        0.0000000000000000     
           4   2405.0814258459463        1104.5920374512350        1669.7854395722015       -1332.7076504399495        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4271700994114009E-005           OLP:   -1.4271700994113999E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9583893112933264E-006           OLP:   -4.9583893112933679E-006
ABS integral  = 0.8977E-06  +/-  0.2032E-08  (   0.226 %)
Integral      = 0.5159E-06  +/-  0.2257E-08  (   0.437 %)
Virtual       = -.1153E-08  +/-  0.1045E-08  (  90.646 %)
Virtual ratio = -.1953E+00  +/-  0.4127E-03  (   0.211 %)
ABS virtual   = 0.4847E-06  +/-  0.8197E-09  (   0.169 %)
Born          = 0.1924E-05  +/-  0.2671E-08  (   0.139 %)
V  2          = -.1153E-08  +/-  0.1045E-08  (  90.646 %)
B  2          = 0.1924E-05  +/-  0.2671E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8977E-06  +/-  0.2032E-08  (   0.226 %)
accumulated results Integral      = 0.5159E-06  +/-  0.2257E-08  (   0.437 %)
accumulated results Virtual       = -.1153E-08  +/-  0.1045E-08  (  90.646 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4127E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4847E-06  +/-  0.8197E-09  (   0.169 %)
accumulated results Born          = 0.1924E-05  +/-  0.2671E-08  (   0.139 %)
accumulated results V  2          = -.1153E-08  +/-  0.1045E-08  (  90.646 %)
accumulated results B  2          = 0.1924E-05  +/-  0.2671E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203004    23146  0.3274E-06  0.1861E-06  0.8613E+00
channel    2 :     1 T   208732    24358  0.3327E-06  0.2004E-06  0.9925E+00
channel    3 :     2 T    72844     8697  0.1188E-06  0.6169E-07  0.7257E+00
channel    4 :     2 T    75299     9333  0.1188E-06  0.6776E-07  0.9249E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9771757183058018E-007  +/-   2.0317020567339559E-009
 Final result:   5.1593623526066671E-007  +/-   2.2565007075385139E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409360
   Stability unknown:                                          0
   Stable PS point:                                       409360
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409360
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409360
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52394521    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.63228893    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.36813211    
 Time spent in Integrated_CT :    9.52294922    
 Time spent in Virtuals :    589.462280    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.40996170    
 Time spent in N1body_prefactor :   0.795449078    
 Time spent in Adding_alphas_pdf :    10.2842503    
 Time spent in Reweight_scale :    45.5548630    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7769432    
 Time spent in Applying_cuts :    5.56698847    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9024124    
 Time spent in Other_tasks :    24.9376831    
 Time spent in Total :    760.738159    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_45, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18073
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          45
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 142065
  with seed                   48
 Ranmar initialization seeds       30233        1083
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434223D+04 0.434223D+04  1.00
 muF1, muF1_reference: 0.434223D+04 0.434223D+04  1.00
 muF2, muF2_reference: 0.434223D+04 0.434223D+04  1.00
 QES,  QES_reference:  0.434223D+04 0.434223D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4804502107972820E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4120798964759413E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4180521834009700E-005           OLP:   -1.4180521834009694E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1211716178672229E-006           OLP:   -5.1211716178672449E-006
  FINITE:
           OLP:   -9.4705150322939205E-004
           BORN:    4.0867681325886911E-003
  MOMENTA (Exyzm): 
           1   2394.6364936998020        0.0000000000000000        0.0000000000000000        2394.6364936998020        0.0000000000000000     
           2   2394.6364936998020       -0.0000000000000000       -0.0000000000000000       -2394.6364936998020        0.0000000000000000     
           3   2394.6364936998020       -1990.2970853232653       -212.07771794327405        1314.5434533192772        0.0000000000000000     
           4   2394.6364936998020        1990.2970853232653        212.07771794327405       -1314.5434533192772        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4180521834009700E-005           OLP:   -1.4180521834009694E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1211716178672254E-006           OLP:   -5.1211716178672449E-006
ABS integral  = 0.8927E-06  +/-  0.1788E-08  (   0.200 %)
Integral      = 0.5115E-06  +/-  0.2038E-08  (   0.398 %)
Virtual       = -.1368E-08  +/-  0.1047E-08  (  76.547 %)
Virtual ratio = -.1960E+00  +/-  0.4130E-03  (   0.211 %)
ABS virtual   = 0.4837E-06  +/-  0.8235E-09  (   0.170 %)
Born          = 0.1918E-05  +/-  0.2672E-08  (   0.139 %)
V  2          = -.1368E-08  +/-  0.1047E-08  (  76.547 %)
B  2          = 0.1918E-05  +/-  0.2672E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8927E-06  +/-  0.1788E-08  (   0.200 %)
accumulated results Integral      = 0.5115E-06  +/-  0.2038E-08  (   0.398 %)
accumulated results Virtual       = -.1368E-08  +/-  0.1047E-08  (  76.547 %)
accumulated results Virtual ratio = -.1960E+00  +/-  0.4130E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8235E-09  (   0.170 %)
accumulated results Born          = 0.1918E-05  +/-  0.2672E-08  (   0.139 %)
accumulated results V  2          = -.1368E-08  +/-  0.1047E-08  (  76.547 %)
accumulated results B  2          = 0.1918E-05  +/-  0.2672E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202158    23146  0.3254E-06  0.1839E-06  0.9648E+00
channel    2 :     1 T   209672    24358  0.3322E-06  0.1990E-06  0.9937E+00
channel    3 :     2 T    72543     8697  0.1156E-06  0.6126E-07  0.1000E+01
channel    4 :     2 T    75497     9333  0.1195E-06  0.6732E-07  0.9238E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9265891541330389E-007  +/-   1.7876479873535796E-009
 Final result:   5.1148964856210041E-007  +/-   2.0375600013961280E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408539
   Stability unknown:                                          0
   Stable PS point:                                       408539
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408539
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408539
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53842211    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.61851549    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.38157749    
 Time spent in Integrated_CT :    9.62707520    
 Time spent in Virtuals :    588.247131    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.55517960    
 Time spent in N1body_prefactor :   0.836002409    
 Time spent in Adding_alphas_pdf :    10.4105606    
 Time spent in Reweight_scale :    45.7904816    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8997402    
 Time spent in Applying_cuts :    5.62327480    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0375900    
 Time spent in Other_tasks :    25.3139038    
 Time spent in Total :    760.879456    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_46, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18084
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          46
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 145222
  with seed                   48
 Ranmar initialization seeds       30233        4240
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437306D+04 0.437306D+04  1.00
 muF1, muF1_reference: 0.437306D+04 0.437306D+04  1.00
 muF2, muF2_reference: 0.437306D+04 0.437306D+04  1.00
 QES,  QES_reference:  0.437306D+04 0.437306D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4754700478745828E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4122286533131299E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4182255357818747E-005           OLP:   -1.4182255357818743E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1181128757332633E-006           OLP:   -5.1181128757294804E-006
  FINITE:
           OLP:   -9.4709431578573772E-004
           BORN:    4.0872677270283615E-003
  MOMENTA (Exyzm): 
           1   2394.1210666776237        0.0000000000000000        0.0000000000000000        2394.1210666776237        0.0000000000000000     
           2   2394.1210666776237       -0.0000000000000000       -0.0000000000000000       -2394.1210666776237        0.0000000000000000     
           3   2394.1210666776237       -1477.6223955692583       -1349.2769527338369        1314.4958892454019        0.0000000000000000     
           4   2394.1210666776237        1477.6223955692583        1349.2769527338369       -1314.4958892454019        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4182255357818747E-005           OLP:   -1.4182255357818743E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1181128757332607E-006           OLP:   -5.1181128757294804E-006
ABS integral  = 0.8937E-06  +/-  0.1797E-08  (   0.201 %)
Integral      = 0.5158E-06  +/-  0.2045E-08  (   0.396 %)
Virtual       = -.7740E-09  +/-  0.1045E-08  ( 134.950 %)
Virtual ratio = -.1958E+00  +/-  0.4130E-03  (   0.211 %)
ABS virtual   = 0.4836E-06  +/-  0.8205E-09  (   0.170 %)
Born          = 0.1921E-05  +/-  0.2675E-08  (   0.139 %)
V  2          = -.7740E-09  +/-  0.1045E-08  ( 134.950 %)
B  2          = 0.1921E-05  +/-  0.2675E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8937E-06  +/-  0.1797E-08  (   0.201 %)
accumulated results Integral      = 0.5158E-06  +/-  0.2045E-08  (   0.396 %)
accumulated results Virtual       = -.7740E-09  +/-  0.1045E-08  ( 134.950 %)
accumulated results Virtual ratio = -.1958E+00  +/-  0.4130E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8205E-09  (   0.170 %)
accumulated results Born          = 0.1921E-05  +/-  0.2675E-08  (   0.139 %)
accumulated results V  2          = -.7740E-09  +/-  0.1045E-08  ( 134.950 %)
accumulated results B  2          = 0.1921E-05  +/-  0.2675E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202713    23146  0.3245E-06  0.1836E-06  0.9996E+00
channel    2 :     1 T   209324    24358  0.3326E-06  0.2011E-06  0.9808E+00
channel    3 :     2 T    72413     8697  0.1170E-06  0.6265E-07  0.1000E+01
channel    4 :     2 T    75422     9333  0.1196E-06  0.6836E-07  0.8515E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9365087691083529E-007  +/-   1.7973405286197387E-009
 Final result:   5.1577831716115989E-007  +/-   2.0449191589271959E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408863
   Stability unknown:                                          0
   Stable PS point:                                       408863
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408863
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408863
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53354502    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.69906521    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.34798479    
 Time spent in Integrated_CT :    9.63970947    
 Time spent in Virtuals :    589.546326    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.57227898    
 Time spent in N1body_prefactor :   0.847162783    
 Time spent in Adding_alphas_pdf :    10.4189034    
 Time spent in Reweight_scale :    45.7789078    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8730545    
 Time spent in Applying_cuts :    5.63495398    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.2984238    
 Time spent in Other_tasks :    25.4567261    
 Time spent in Total :    762.646973    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_47, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18111
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          47
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 148379
  with seed                   48
 Ranmar initialization seeds       30233        7397
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442426D+04 0.442426D+04  1.00
 muF1, muF1_reference: 0.442426D+04 0.442426D+04  1.00
 muF2, muF2_reference: 0.442426D+04 0.442426D+04  1.00
 QES,  QES_reference:  0.442426D+04 0.442426D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4672906951151696E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4114826056777619E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4210552849649924E-005           OLP:   -1.4210552849649916E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0679374560386092E-006           OLP:   -5.0679374560386549E-006
  FINITE:
           OLP:   -9.5035176702486332E-004
           BORN:    4.0954229479152606E-003
  MOMENTA (Exyzm): 
           1   2396.7073797293051        0.0000000000000000        0.0000000000000000        2396.7073797293051        0.0000000000000000     
           2   2396.7073797293051       -0.0000000000000000       -0.0000000000000000       -2396.7073797293051        0.0000000000000000     
           3   2396.7073797293051       -1978.1762214258365       -298.74100966987885        1319.7647177340864        0.0000000000000000     
           4   2396.7073797293051        1978.1762214258365        298.74100966987885       -1319.7647177340864        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4210552849649924E-005           OLP:   -1.4210552849649916E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0679374560386092E-006           OLP:   -5.0679374560386549E-006
ABS integral  = 0.8926E-06  +/-  0.1896E-08  (   0.212 %)
Integral      = 0.5118E-06  +/-  0.2133E-08  (   0.417 %)
Virtual       = -.2644E-09  +/-  0.1041E-08  ( 393.642 %)
Virtual ratio = -.1949E+00  +/-  0.4129E-03  (   0.212 %)
ABS virtual   = 0.4833E-06  +/-  0.8163E-09  (   0.169 %)
Born          = 0.1920E-05  +/-  0.2665E-08  (   0.139 %)
V  2          = -.2644E-09  +/-  0.1041E-08  ( 393.642 %)
B  2          = 0.1920E-05  +/-  0.2665E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8926E-06  +/-  0.1896E-08  (   0.212 %)
accumulated results Integral      = 0.5118E-06  +/-  0.2133E-08  (   0.417 %)
accumulated results Virtual       = -.2644E-09  +/-  0.1041E-08  ( 393.642 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4129E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8163E-09  (   0.169 %)
accumulated results Born          = 0.1920E-05  +/-  0.2665E-08  (   0.139 %)
accumulated results V  2          = -.2644E-09  +/-  0.1041E-08  ( 393.642 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2665E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202591    23146  0.3265E-06  0.1841E-06  0.9271E+00
channel    2 :     1 T   209297    24358  0.3301E-06  0.1972E-06  0.9170E+00
channel    3 :     2 T    72260     8697  0.1158E-06  0.6151E-07  0.9799E+00
channel    4 :     2 T    75732     9333  0.1201E-06  0.6904E-07  0.9270E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9260482376564839E-007  +/-   1.8956692513781947E-009
 Final result:   5.1176314251900360E-007  +/-   2.1328044937664282E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408575
   Stability unknown:                                          0
   Stable PS point:                                       408575
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408575
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408575
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51382613    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65413094    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.35051537    
 Time spent in Integrated_CT :    9.70166016    
 Time spent in Virtuals :    593.150879    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.45880127    
 Time spent in N1body_prefactor :   0.795970559    
 Time spent in Adding_alphas_pdf :    10.4602766    
 Time spent in Reweight_scale :    45.8807907    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0159473    
 Time spent in Applying_cuts :    5.62525654    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.8651581    
 Time spent in Other_tasks :    25.0855713    
 Time spent in Total :    765.558777    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_48, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18080
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          48
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 151536
  with seed                   48
 Ranmar initialization seeds       30233       10554
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419990D+04 0.419990D+04  1.00
 muF1, muF1_reference: 0.419990D+04 0.419990D+04  1.00
 muF2, muF2_reference: 0.419990D+04 0.419990D+04  1.00
 QES,  QES_reference:  0.419990D+04 0.419990D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5039954719587049E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3724975453892283E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4147280551756101E-005           OLP:   -1.4147280551756072E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1787811708745653E-006           OLP:   -5.1787811708745619E-006
  FINITE:
           OLP:   -9.7615612824468510E-004
           BORN:    4.0771881316133685E-003
  MOMENTA (Exyzm): 
           1   2536.6188242357734        0.0000000000000000        0.0000000000000000        2536.6188242357734        0.0000000000000000     
           2   2536.6188242357734       -0.0000000000000000       -0.0000000000000000       -2536.6188242357734        0.0000000000000000     
           3   2536.6188242357734       -2052.4459750133506       -544.09350151140677        1387.7546039310532        0.0000000000000000     
           4   2536.6188242357734        2052.4459750133506        544.09350151140677       -1387.7546039310532        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4147280551756101E-005           OLP:   -1.4147280551756072E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1787811708745661E-006           OLP:   -5.1787811708745619E-006
ABS integral  = 0.8943E-06  +/-  0.1930E-08  (   0.216 %)
Integral      = 0.5136E-06  +/-  0.2164E-08  (   0.421 %)
Virtual       = -.6201E-09  +/-  0.1045E-08  ( 168.498 %)
Virtual ratio = -.1957E+00  +/-  0.4128E-03  (   0.211 %)
ABS virtual   = 0.4833E-06  +/-  0.8212E-09  (   0.170 %)
Born          = 0.1919E-05  +/-  0.2673E-08  (   0.139 %)
V  2          = -.6201E-09  +/-  0.1045E-08  ( 168.498 %)
B  2          = 0.1919E-05  +/-  0.2673E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8943E-06  +/-  0.1930E-08  (   0.216 %)
accumulated results Integral      = 0.5136E-06  +/-  0.2164E-08  (   0.421 %)
accumulated results Virtual       = -.6201E-09  +/-  0.1045E-08  ( 168.498 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4128E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8212E-09  (   0.170 %)
accumulated results Born          = 0.1919E-05  +/-  0.2673E-08  (   0.139 %)
accumulated results V  2          = -.6201E-09  +/-  0.1045E-08  ( 168.498 %)
accumulated results B  2          = 0.1919E-05  +/-  0.2673E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202453    23146  0.3262E-06  0.1843E-06  0.8922E+00
channel    2 :     1 T   209635    24358  0.3319E-06  0.1986E-06  0.9326E+00
channel    3 :     2 T    72563     8697  0.1177E-06  0.6269E-07  0.9816E+00
channel    4 :     2 T    75216     9333  0.1184E-06  0.6805E-07  0.9111E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9427678248332686E-007  +/-   1.9297608090756689E-009
 Final result:   5.1357809672695893E-007  +/-   2.1636270945047962E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408720
   Stability unknown:                                          0
   Stable PS point:                                       408720
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408720
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408720
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50531924    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.62389898    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.36210728    
 Time spent in Integrated_CT :    9.64520264    
 Time spent in Virtuals :    589.507812    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.47371674    
 Time spent in N1body_prefactor :   0.807775855    
 Time spent in Adding_alphas_pdf :    10.4371214    
 Time spent in Reweight_scale :    46.0628357    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9066067    
 Time spent in Applying_cuts :    5.61750937    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.1064224    
 Time spent in Other_tasks :    25.1495972    
 Time spent in Total :    762.205933    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_49, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18112
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          49
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 154693
  with seed                   48
 Ranmar initialization seeds       30233       13711
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.421053D+04 0.421053D+04  1.00
 muF1, muF1_reference: 0.421053D+04 0.421053D+04  1.00
 muF2, muF2_reference: 0.421053D+04 0.421053D+04  1.00
 QES,  QES_reference:  0.421053D+04 0.421053D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5022036097708730E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4074978430369628E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4193628264543362E-005           OLP:   -1.4193628264543337E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0978820921262797E-006           OLP:   -5.0978820921263237E-006
  FINITE:
           OLP:   -9.5198088951673691E-004
           BORN:    4.0905453520213705E-003
  MOMENTA (Exyzm): 
           1   2410.5779588251580        0.0000000000000000        0.0000000000000000        2410.5779588251580        0.0000000000000000     
           2   2410.5779588251580       -0.0000000000000000       -0.0000000000000000       -2410.5779588251580        0.0000000000000000     
           3   2410.5779588251580       -2011.9764858112580       -83.432908842974072        1325.0945875062073        0.0000000000000000     
           4   2410.5779588251580        2011.9764858112580        83.432908842974072       -1325.0945875062073        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4193628264543362E-005           OLP:   -1.4193628264543337E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0978820921262797E-006           OLP:   -5.0978820921263237E-006
ABS integral  = 0.8973E-06  +/-  0.2072E-08  (   0.231 %)
Integral      = 0.5167E-06  +/-  0.2293E-08  (   0.444 %)
Virtual       = 0.3464E-09  +/-  0.1048E-08  ( 302.529 %)
Virtual ratio = -.1951E+00  +/-  0.4130E-03  (   0.212 %)
ABS virtual   = 0.4850E-06  +/-  0.8236E-09  (   0.170 %)
Born          = 0.1923E-05  +/-  0.2685E-08  (   0.140 %)
V  2          = 0.3464E-09  +/-  0.1048E-08  ( 302.529 %)
B  2          = 0.1923E-05  +/-  0.2685E-08  (   0.140 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8973E-06  +/-  0.2072E-08  (   0.231 %)
accumulated results Integral      = 0.5167E-06  +/-  0.2293E-08  (   0.444 %)
accumulated results Virtual       = 0.3464E-09  +/-  0.1048E-08  ( 302.529 %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4130E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4850E-06  +/-  0.8236E-09  (   0.170 %)
accumulated results Born          = 0.1923E-05  +/-  0.2685E-08  (   0.140 %)
accumulated results V  2          = 0.3464E-09  +/-  0.1048E-08  ( 302.529 %)
accumulated results B  2          = 0.1923E-05  +/-  0.2685E-08  (   0.140 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203592    23146  0.3294E-06  0.1874E-06  0.1000E+01
channel    2 :     1 T   208533    24358  0.3304E-06  0.1996E-06  0.9951E+00
channel    3 :     2 T    72641     8697  0.1177E-06  0.6161E-07  0.5723E+00
channel    4 :     2 T    75106     9333  0.1198E-06  0.6818E-07  0.9194E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9730688621334490E-007  +/-   2.0724008508607413E-009
 Final result:   5.1674795472749495E-007  +/-   2.2925997366495502E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408930
   Stability unknown:                                          0
   Stable PS point:                                       408930
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408930
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408930
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.42598081    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.15446091    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.94607115    
 Time spent in Integrated_CT :    8.81689453    
 Time spent in Virtuals :    541.926086    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.83098459    
 Time spent in N1body_prefactor :   0.742477477    
 Time spent in Adding_alphas_pdf :    9.47188759    
 Time spent in Reweight_scale :    42.0530624    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1184883    
 Time spent in Applying_cuts :    5.28817129    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.6584167    
 Time spent in Other_tasks :    23.6685791    
 Time spent in Total :    701.101440    
Time in seconds: 731



LOG file for integration channel /P0_uux_emep/all_G1_50, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18106
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          50
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 157850
  with seed                   48
 Ranmar initialization seeds       30233       16868
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.394803D+04 0.394803D+04  1.00
 muF1, muF1_reference: 0.394803D+04 0.394803D+04  1.00
 muF2, muF2_reference: 0.394803D+04 0.394803D+04  1.00
 QES,  QES_reference:  0.394803D+04 0.394803D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5480734998408197E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4076602403109204E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4176861761254579E-005           OLP:   -1.4176861761254571E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1275299236459294E-006           OLP:   -5.1275299236247417E-006
  FINITE:
           OLP:   -9.5027160123068626E-004
           BORN:    4.0857133146578930E-003
  MOMENTA (Exyzm): 
           1   2410.0107982340855        0.0000000000000000        0.0000000000000000        2410.0107982340855        0.0000000000000000     
           2   2410.0107982340855       -0.0000000000000000       -0.0000000000000000       -2410.0107982340855        0.0000000000000000     
           3   2410.0107982340855       -1434.6366505605017       -1414.5643840270684        1322.4890668415976        0.0000000000000000     
           4   2410.0107982340855        1434.6366505605017        1414.5643840270684       -1322.4890668415976        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4176861761254579E-005           OLP:   -1.4176861761254571E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1275299236459294E-006           OLP:   -5.1275299236247417E-006
 Error #15 in genps_fks.f  -1.0728836059570312E-006           4
ABS integral  = 0.8953E-06  +/-  0.1830E-08  (   0.204 %)
Integral      = 0.5144E-06  +/-  0.2076E-08  (   0.404 %)
Virtual       = -.1977E-10  +/-  0.1039E-08  ( ******* %)
Virtual ratio = -.1953E+00  +/-  0.4136E-03  (   0.212 %)
ABS virtual   = 0.4825E-06  +/-  0.8151E-09  (   0.169 %)
Born          = 0.1915E-05  +/-  0.2661E-08  (   0.139 %)
V  2          = -.1977E-10  +/-  0.1039E-08  ( ******* %)
B  2          = 0.1915E-05  +/-  0.2661E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8953E-06  +/-  0.1830E-08  (   0.204 %)
accumulated results Integral      = 0.5144E-06  +/-  0.2076E-08  (   0.404 %)
accumulated results Virtual       = -.1977E-10  +/-  0.1039E-08  ( ******* %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4136E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4825E-06  +/-  0.8151E-09  (   0.169 %)
accumulated results Born          = 0.1915E-05  +/-  0.2661E-08  (   0.139 %)
accumulated results V  2          = -.1977E-10  +/-  0.1039E-08  ( ******* %)
accumulated results B  2          = 0.1915E-05  +/-  0.2661E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202841    23146  0.3263E-06  0.1847E-06  0.9427E+00
channel    2 :     1 T   208775    24358  0.3327E-06  0.1996E-06  0.9591E+00
channel    3 :     2 T    72546     8697  0.1170E-06  0.6197E-07  0.1000E+01
channel    4 :     2 T    75711     9333  0.1192E-06  0.6807E-07  0.9304E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9533615898918764E-007  +/-   1.8299530950492356E-009
 Final result:   5.1437475485592500E-007  +/-   2.0755619270604407E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408240
   Stability unknown:                                          0
   Stable PS point:                                       408240
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408240
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408240
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.44921505    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.22738934    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.95188189    
 Time spent in Integrated_CT :    8.78717041    
 Time spent in Virtuals :    540.916138    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.80553579    
 Time spent in N1body_prefactor :   0.745689571    
 Time spent in Adding_alphas_pdf :    9.43836880    
 Time spent in Reweight_scale :    41.6572075    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1453876    
 Time spent in Applying_cuts :    5.26813126    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.5187149    
 Time spent in Other_tasks :    23.5158691    
 Time spent in Total :    699.426697    
Time in seconds: 731



LOG file for integration channel /P0_uux_emep/all_G1_51, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18104
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          51
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 161007
  with seed                   48
 Ranmar initialization seeds       30233       20025
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424205D+04 0.424205D+04  1.00
 muF1, muF1_reference: 0.424205D+04 0.424205D+04  1.00
 muF2, muF2_reference: 0.424205D+04 0.424205D+04  1.00
 QES,  QES_reference:  0.424205D+04 0.424205D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4969254435097388E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4100372301162537E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4142473790838371E-005           OLP:   -1.4142473790838369E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1880321915171099E-006           OLP:   -5.1880321915171379E-006
  FINITE:
           OLP:   -9.4512467781718214E-004
           BORN:    4.0758028428652185E-003
  MOMENTA (Exyzm): 
           1   2401.7275474119101        0.0000000000000000        0.0000000000000000        2401.7275474119101        0.0000000000000000     
           2   2401.7275474119101       -0.0000000000000000       -0.0000000000000000       -2401.7275474119101        0.0000000000000000     
           3   2401.7275474119101       -1990.6437178654144       -284.63015120081513        1313.2473025091620        0.0000000000000000     
           4   2401.7275474119101        1990.6437178654144        284.63015120081513       -1313.2473025091620        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4142473790838371E-005           OLP:   -1.4142473790838369E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1880321915171099E-006           OLP:   -5.1880321915171379E-006
ABS integral  = 0.8939E-06  +/-  0.1820E-08  (   0.204 %)
Integral      = 0.5113E-06  +/-  0.2067E-08  (   0.404 %)
Virtual       = -.9568E-09  +/-  0.1047E-08  ( 109.394 %)
Virtual ratio = -.1959E+00  +/-  0.4131E-03  (   0.211 %)
ABS virtual   = 0.4841E-06  +/-  0.8227E-09  (   0.170 %)
Born          = 0.1920E-05  +/-  0.2671E-08  (   0.139 %)
V  2          = -.9568E-09  +/-  0.1047E-08  ( 109.394 %)
B  2          = 0.1920E-05  +/-  0.2671E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8939E-06  +/-  0.1820E-08  (   0.204 %)
accumulated results Integral      = 0.5113E-06  +/-  0.2067E-08  (   0.404 %)
accumulated results Virtual       = -.9568E-09  +/-  0.1047E-08  ( 109.394 %)
accumulated results Virtual ratio = -.1959E+00  +/-  0.4131E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8227E-09  (   0.170 %)
accumulated results Born          = 0.1920E-05  +/-  0.2671E-08  (   0.139 %)
accumulated results V  2          = -.9568E-09  +/-  0.1047E-08  ( 109.394 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2671E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202918    23146  0.3274E-06  0.1842E-06  0.1000E+01
channel    2 :     1 T   208533    24358  0.3288E-06  0.1974E-06  0.9913E+00
channel    3 :     2 T    72615     8697  0.1173E-06  0.6204E-07  0.8722E+00
channel    4 :     2 T    75803     9333  0.1203E-06  0.6767E-07  0.9242E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9390717758105509E-007  +/-   1.8203091205244277E-009
 Final result:   5.1130968206899417E-007  +/-   2.0673177633685348E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408547
   Stability unknown:                                          0
   Stable PS point:                                       408547
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408547
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408547
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.39482379    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.18489599    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.92687464    
 Time spent in Integrated_CT :    8.81146240    
 Time spent in Virtuals :    535.682129    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.70782185    
 Time spent in N1body_prefactor :   0.738821149    
 Time spent in Adding_alphas_pdf :    9.44396782    
 Time spent in Reweight_scale :    41.4231491    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6353388    
 Time spent in Applying_cuts :    5.23768425    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.4348984    
 Time spent in Other_tasks :    23.0173950    
 Time spent in Total :    692.639221    
Time in seconds: 730



LOG file for integration channel /P0_uux_emep/all_G1_52, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18074
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          52
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 164164
  with seed                   48
 Ranmar initialization seeds       30233       23182
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434875D+04 0.434875D+04  1.00
 muF1, muF1_reference: 0.434875D+04 0.434875D+04  1.00
 muF2, muF2_reference: 0.434875D+04 0.434875D+04  1.00
 QES,  QES_reference:  0.434875D+04 0.434875D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4793935829626540E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4070732341407430E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4328745319328176E-005           OLP:   -1.4328745319328182E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8548263020814808E-006           OLP:   -4.8548263020814774E-006
  FINITE:
           OLP:   -9.6506662393717622E-004
           BORN:    4.1294855320886141E-003
  MOMENTA (Exyzm): 
           1   2412.0616277804497        0.0000000000000000        0.0000000000000000        2412.0616277804497        0.0000000000000000     
           2   2412.0616277804497       -0.0000000000000000       -0.0000000000000000       -2412.0616277804497        0.0000000000000000     
           3   2412.0616277804497       -1997.4948296433893       -144.13676951050442        1344.3512537405820        0.0000000000000000     
           4   2412.0616277804497        1997.4948296433893        144.13676951050442       -1344.3512537405820        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4328745319328176E-005           OLP:   -1.4328745319328182E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8548263020814782E-006           OLP:   -4.8548263020814774E-006
ABS integral  = 0.8943E-06  +/-  0.1844E-08  (   0.206 %)
Integral      = 0.5124E-06  +/-  0.2088E-08  (   0.408 %)
Virtual       = -.5180E-09  +/-  0.1049E-08  ( 202.553 %)
Virtual ratio = -.1951E+00  +/-  0.4134E-03  (   0.212 %)
ABS virtual   = 0.4838E-06  +/-  0.8264E-09  (   0.171 %)
Born          = 0.1920E-05  +/-  0.2679E-08  (   0.140 %)
V  2          = -.5180E-09  +/-  0.1049E-08  ( 202.553 %)
B  2          = 0.1920E-05  +/-  0.2679E-08  (   0.140 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8943E-06  +/-  0.1844E-08  (   0.206 %)
accumulated results Integral      = 0.5124E-06  +/-  0.2088E-08  (   0.408 %)
accumulated results Virtual       = -.5180E-09  +/-  0.1049E-08  ( 202.553 %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4134E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8264E-09  (   0.171 %)
accumulated results Born          = 0.1920E-05  +/-  0.2679E-08  (   0.140 %)
accumulated results V  2          = -.5180E-09  +/-  0.1049E-08  ( 202.553 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2679E-08  (   0.140 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                            2              3                         4
channel    1 :     1 T   202722    23146  0.3266E-06  0.1836E-06  0.9617E+00
channel    2 :     1 T   209311    24358  0.3310E-06  0.1979E-06  0.9487E+00
channel    3 :     2 T    72514     8697  0.1166E-06  0.6242E-07  0.9880E+00
channel    4 :     2 T    75322     9333  0.1201E-06  0.6849E-07  0.9395E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9426312064758295E-007  +/-   1.8441489042301360E-009
 Final result:   5.1242016707051015E-007  +/-   2.0881256991256120E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408578
   Stability unknown:                                          0
   Stable PS point:                                       408578
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408578
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408578
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.41090965    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.21511269    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.00709486    
 Time spent in Integrated_CT :    8.89959717    
 Time spent in Virtuals :    537.774536    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.71454239    
 Time spent in N1body_prefactor :   0.745875716    
 Time spent in Adding_alphas_pdf :    9.52341270    
 Time spent in Reweight_scale :    41.8813324    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8688555    
 Time spent in Applying_cuts :    5.24424696    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.6443214    
 Time spent in Other_tasks :    23.0686646    
 Time spent in Total :    695.998535    
Time in seconds: 730



LOG file for integration channel /P0_uux_emep/all_G1_53, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18077
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          53
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 167321
  with seed                   48
 Ranmar initialization seeds       30233       26339
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441588D+04 0.441588D+04  1.00
 muF1, muF1_reference: 0.441588D+04 0.441588D+04  1.00
 muF2, muF2_reference: 0.441588D+04 0.441588D+04  1.00
 QES,  QES_reference:  0.441588D+04 0.441588D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4686211991395329E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4099016369632287E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4196189244998772E-005           OLP:   -1.4196189244998762E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0934003653364887E-006           OLP:   -5.0934003653562169E-006
  FINITE:
           OLP:   -9.5027918486300018E-004
           BORN:    4.0912834160669580E-003
  MOMENTA (Exyzm): 
           1   2402.1991421245962        0.0000000000000000        0.0000000000000000        2402.1991421245962        0.0000000000000000     
           2   2402.1991421245962       -0.0000000000000000       -0.0000000000000000       -2402.1991421245962        0.0000000000000000     
           3   2402.1991421245962       -1396.5002564934132       -1440.7445145870690        1320.8342044803535        0.0000000000000000     
           4   2402.1991421245962        1396.5002564934132        1440.7445145870690       -1320.8342044803535        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4196189244998772E-005           OLP:   -1.4196189244998762E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0934003653364844E-006           OLP:   -5.0934003653562169E-006
ABS integral  = 0.8932E-06  +/-  0.1776E-08  (   0.199 %)
Integral      = 0.5150E-06  +/-  0.2026E-08  (   0.393 %)
Virtual       = -.1204E-08  +/-  0.1043E-08  (  86.675 %)
Virtual ratio = -.1959E+00  +/-  0.4132E-03  (   0.211 %)
ABS virtual   = 0.4835E-06  +/-  0.8192E-09  (   0.169 %)
Born          = 0.1920E-05  +/-  0.2667E-08  (   0.139 %)
V  2          = -.1204E-08  +/-  0.1043E-08  (  86.675 %)
B  2          = 0.1920E-05  +/-  0.2667E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8932E-06  +/-  0.1776E-08  (   0.199 %)
accumulated results Integral      = 0.5150E-06  +/-  0.2026E-08  (   0.393 %)
accumulated results Virtual       = -.1204E-08  +/-  0.1043E-08  (  86.675 %)
accumulated results Virtual ratio = -.1959E+00  +/-  0.4132E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8192E-09  (   0.169 %)
accumulated results Born          = 0.1920E-05  +/-  0.2667E-08  (   0.139 %)
accumulated results V  2          = -.1204E-08  +/-  0.1043E-08  (  86.675 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2667E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202813    23146  0.3259E-06  0.1854E-06  0.1000E+01
channel    2 :     1 T   209507    24358  0.3314E-06  0.2004E-06  0.9608E+00
channel    3 :     2 T    72548     8697  0.1173E-06  0.6258E-07  0.1000E+01
channel    4 :     2 T    75007     9333  0.1186E-06  0.6665E-07  0.9192E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9321194454077537E-007  +/-   1.7763444180131611E-009
 Final result:   5.1500172994886819E-007  +/-   2.0264969230724920E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408685
   Stability unknown:                                          0
   Stable PS point:                                       408685
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408685
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408685
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.41988659    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.21966887    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.97325993    
 Time spent in Integrated_CT :    8.94299316    
 Time spent in Virtuals :    537.818054    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.78097391    
 Time spent in N1body_prefactor :   0.737954795    
 Time spent in Adding_alphas_pdf :    9.56115913    
 Time spent in Reweight_scale :    41.8125992    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8089752    
 Time spent in Applying_cuts :    5.15441036    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.5536613    
 Time spent in Other_tasks :    23.0611572    
 Time spent in Total :    695.844727    
Time in seconds: 730



LOG file for integration channel /P0_uux_emep/all_G1_54, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18109
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          54
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 170478
  with seed                   48
 Ranmar initialization seeds       30233       29496
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.416149D+04 0.416149D+04  1.00
 muF1, muF1_reference: 0.416149D+04 0.416149D+04  1.00
 muF2, muF2_reference: 0.416149D+04 0.416149D+04  1.00
 QES,  QES_reference:  0.416149D+04 0.416149D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5105112168962318E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3602607473127551E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4603300108010676E-005           OLP:   -1.4603300108010671E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.3365750431072449E-006           OLP:   -4.3365750431073092E-006
  FINITE:
           OLP:   -1.0308798712106502E-003
           BORN:    4.2086110941921351E-003
  MOMENTA (Exyzm): 
           1   2582.5279993467625        0.0000000000000000        0.0000000000000000        2582.5279993467625        0.0000000000000000     
           2   2582.5279993467625       -0.0000000000000000       -0.0000000000000000       -2582.5279993467625        0.0000000000000000     
           3   2582.5279993467625       -2116.2196416510942       -54.661229956094616        1479.2151451495465        0.0000000000000000     
           4   2582.5279993467625        2116.2196416510942        54.661229956094616       -1479.2151451495465        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4603300108010676E-005           OLP:   -1.4603300108010671E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.3365750431072440E-006           OLP:   -4.3365750431073092E-006
ABS integral  = 0.8964E-06  +/-  0.1810E-08  (   0.202 %)
Integral      = 0.5184E-06  +/-  0.2057E-08  (   0.397 %)
Virtual       = 0.6948E-09  +/-  0.1045E-08  ( 150.412 %)
Virtual ratio = -.1949E+00  +/-  0.4130E-03  (   0.212 %)
ABS virtual   = 0.4844E-06  +/-  0.8204E-09  (   0.169 %)
Born          = 0.1921E-05  +/-  0.2670E-08  (   0.139 %)
V  2          = 0.6948E-09  +/-  0.1045E-08  ( 150.412 %)
B  2          = 0.1921E-05  +/-  0.2670E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8964E-06  +/-  0.1810E-08  (   0.202 %)
accumulated results Integral      = 0.5184E-06  +/-  0.2057E-08  (   0.397 %)
accumulated results Virtual       = 0.6948E-09  +/-  0.1045E-08  ( 150.412 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4130E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8204E-09  (   0.169 %)
accumulated results Born          = 0.1921E-05  +/-  0.2670E-08  (   0.139 %)
accumulated results V  2          = 0.6948E-09  +/-  0.1045E-08  ( 150.412 %)
accumulated results B  2          = 0.1921E-05  +/-  0.2670E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202387    23146  0.3236E-06  0.1871E-06  0.1000E+01
channel    2 :     1 T   209242    24358  0.3347E-06  0.2015E-06  0.9483E+00
channel    3 :     2 T    72273     8697  0.1172E-06  0.6196E-07  0.9580E+00
channel    4 :     2 T    75965     9333  0.1208E-06  0.6783E-07  0.8979E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9641749795243895E-007  +/-   1.8097978235914037E-009
 Final result:   5.1838698277155118E-007  +/-   2.0568560068911882E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408935
   Stability unknown:                                          0
   Stable PS point:                                       408935
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408935
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408935
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.41356421    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.21100664    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.94267225    
 Time spent in Integrated_CT :    8.89978027    
 Time spent in Virtuals :    537.610168    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.76277876    
 Time spent in N1body_prefactor :   0.754639924    
 Time spent in Adding_alphas_pdf :    9.56451035    
 Time spent in Reweight_scale :    41.8634949    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9893456    
 Time spent in Applying_cuts :    5.26427078    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.0777092    
 Time spent in Other_tasks :    23.2177124    
 Time spent in Total :    696.571594    
Time in seconds: 730



LOG file for integration channel /P0_uux_emep/all_G1_55, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18085
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          55
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 173635
  with seed                   48
 Ranmar initialization seeds       30233        2572
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434569D+04 0.434569D+04  1.00
 muF1, muF1_reference: 0.434569D+04 0.434569D+04  1.00
 muF2, muF2_reference: 0.434569D+04 0.434569D+04  1.00
 QES,  QES_reference:  0.434569D+04 0.434569D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4798893254905921E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4082302320155460E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4228150366405274E-005           OLP:   -1.4228150366405266E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0365060720650123E-006           OLP:   -5.0365060720652308E-006
  FINITE:
           OLP:   -9.5463818516099922E-004
           BORN:    4.1004944799456246E-003
  MOMENTA (Exyzm): 
           1   2408.0214049443962        0.0000000000000000        0.0000000000000000        2408.0214049443962        0.0000000000000000     
           2   2408.0214049443962       -0.0000000000000000       -0.0000000000000000       -2408.0214049443962        0.0000000000000000     
           3   2408.0214049443962       -1786.8361239254930       -917.13307282802839        1328.4015505976806        0.0000000000000000     
           4   2408.0214049443962        1786.8361239254930        917.13307282802839       -1328.4015505976806        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4228150366405274E-005           OLP:   -1.4228150366405266E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0365060720650123E-006           OLP:   -5.0365060720652308E-006
ABS integral  = 0.8960E-06  +/-  0.1956E-08  (   0.218 %)
Integral      = 0.5119E-06  +/-  0.2189E-08  (   0.428 %)
Virtual       = -.1085E-08  +/-  0.1045E-08  (  96.319 %)
Virtual ratio = -.1957E+00  +/-  0.4120E-03  (   0.210 %)
ABS virtual   = 0.4838E-06  +/-  0.8210E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2672E-08  (   0.139 %)
V  2          = -.1085E-08  +/-  0.1045E-08  (  96.319 %)
B  2          = 0.1922E-05  +/-  0.2672E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8960E-06  +/-  0.1956E-08  (   0.218 %)
accumulated results Integral      = 0.5119E-06  +/-  0.2189E-08  (   0.428 %)
accumulated results Virtual       = -.1085E-08  +/-  0.1045E-08  (  96.319 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4120E-03  (   0.210 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8210E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2672E-08  (   0.139 %)
accumulated results V  2          = -.1085E-08  +/-  0.1045E-08  (  96.319 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2672E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202618    23146  0.3264E-06  0.1852E-06  0.9786E+00
channel    2 :     1 T   209024    24358  0.3300E-06  0.1974E-06  0.9748E+00
channel    3 :     2 T    72610     8697  0.1180E-06  0.6126E-07  0.7327E+00
channel    4 :     2 T    75620     9333  0.1215E-06  0.6798E-07  0.8595E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9595653049686756E-007  +/-   1.9559609932167966E-009
 Final result:   5.1190981792220199E-007  +/-   2.1889530947195227E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409400
   Stability unknown:                                          0
   Stable PS point:                                       409400
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409400
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409400
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.40530550    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.21672440    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.18801594    
 Time spent in Integrated_CT :    9.15203857    
 Time spent in Virtuals :    540.051575    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.47741508    
 Time spent in N1body_prefactor :   0.717255592    
 Time spent in Adding_alphas_pdf :    9.41578770    
 Time spent in Reweight_scale :    41.7717819    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7912998    
 Time spent in Applying_cuts :    5.08023405    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0959015    
 Time spent in Other_tasks :    22.9721680    
 Time spent in Total :    700.335571    
Time in seconds: 731



LOG file for integration channel /P0_uux_emep/all_G1_56, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18107
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          56
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 176792
  with seed                   48
 Ranmar initialization seeds       30233        5729
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437757D+04 0.437757D+04  1.00
 muF1, muF1_reference: 0.437757D+04 0.437757D+04  1.00
 muF2, muF2_reference: 0.437757D+04 0.437757D+04  1.00
 QES,  QES_reference:  0.437757D+04 0.437757D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4747444953329217E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4119905334448968E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4163808702228101E-005           OLP:   -1.4163808702228101E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1506311735194724E-006           OLP:   -5.1506311735166712E-006
  FINITE:
           OLP:   -9.4555586947956392E-004
           BORN:    4.0819514766743097E-003
  MOMENTA (Exyzm): 
           1   2394.9461910847449        0.0000000000000000        0.0000000000000000        2394.9461910847449        0.0000000000000000     
           2   2394.9461910847449       -0.0000000000000000       -0.0000000000000000       -2394.9461910847449        0.0000000000000000     
           3   2394.9461910847449       -1523.1282658796513       -1301.2869095423491        1312.4404454768592        0.0000000000000000     
           4   2394.9461910847449        1523.1282658796513        1301.2869095423491       -1312.4404454768592        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4163808702228101E-005           OLP:   -1.4163808702228101E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1506311735194757E-006           OLP:   -5.1506311735166712E-006
 Error #15 in genps_fks.f  -1.1473894119262695E-006           4
ABS integral  = 0.8942E-06  +/-  0.1789E-08  (   0.200 %)
Integral      = 0.5139E-06  +/-  0.2039E-08  (   0.397 %)
Virtual       = -.8245E-09  +/-  0.1043E-08  ( 126.512 %)
Virtual ratio = -.1958E+00  +/-  0.4131E-03  (   0.211 %)
ABS virtual   = 0.4835E-06  +/-  0.8188E-09  (   0.169 %)
Born          = 0.1920E-05  +/-  0.2665E-08  (   0.139 %)
V  2          = -.8245E-09  +/-  0.1043E-08  ( 126.512 %)
B  2          = 0.1920E-05  +/-  0.2665E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8942E-06  +/-  0.1789E-08  (   0.200 %)
accumulated results Integral      = 0.5139E-06  +/-  0.2039E-08  (   0.397 %)
accumulated results Virtual       = -.8245E-09  +/-  0.1043E-08  ( 126.512 %)
accumulated results Virtual ratio = -.1958E+00  +/-  0.4131E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8188E-09  (   0.169 %)
accumulated results Born          = 0.1920E-05  +/-  0.2665E-08  (   0.139 %)
accumulated results V  2          = -.8245E-09  +/-  0.1043E-08  ( 126.512 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2665E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203274    23146  0.3252E-06  0.1851E-06  0.1000E+01
channel    2 :     1 T   208910    24358  0.3329E-06  0.1987E-06  0.9668E+00
channel    3 :     2 T    72124     8697  0.1169E-06  0.6171E-07  0.9566E+00
channel    4 :     2 T    75561     9333  0.1192E-06  0.6843E-07  0.9052E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9419211486502534E-007  +/-   1.7889707913037143E-009
 Final result:   5.1388097414168170E-007  +/-   2.0388466398343047E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408721
   Stability unknown:                                          0
   Stable PS point:                                       408721
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408721
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408721
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.38576043    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.22438908    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.01719093    
 Time spent in Integrated_CT :    8.84545898    
 Time spent in Virtuals :    541.399780    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.77098036    
 Time spent in N1body_prefactor :   0.740346432    
 Time spent in Adding_alphas_pdf :    9.47505093    
 Time spent in Reweight_scale :    41.5857925    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7725811    
 Time spent in Applying_cuts :    5.18886280    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.6565857    
 Time spent in Other_tasks :    23.2260132    
 Time spent in Total :    699.288757    
Time in seconds: 731



LOG file for integration channel /P0_uux_emep/all_G1_57, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18108
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          57
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 179949
  with seed                   48
 Ranmar initialization seeds       30233        8886
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437470D+04 0.437470D+04  1.00
 muF1, muF1_reference: 0.437470D+04 0.437470D+04  1.00
 muF2, muF2_reference: 0.437470D+04 0.437470D+04  1.00
 QES,  QES_reference:  0.437470D+04 0.437470D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4752062618946361E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4082241329042203E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4305940982466134E-005           OLP:   -1.4305940982466130E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8963953436451418E-006           OLP:   -4.8963953436458939E-006
  FINITE:
           OLP:   -9.6197404650477593E-004
           BORN:    4.1229134158954645E-003
  MOMENTA (Exyzm): 
           1   2408.0426817668395        0.0000000000000000        0.0000000000000000        2408.0426817668395        0.0000000000000000     
           2   2408.0426817668395       -0.0000000000000000       -0.0000000000000000       -2408.0426817668395        0.0000000000000000     
           3   2408.0426817668395       -1503.4917299008491       -1321.0735126558423        1339.0096898416150        0.0000000000000000     
           4   2408.0426817668395        1503.4917299008491        1321.0735126558423       -1339.0096898416150        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4305940982466134E-005           OLP:   -1.4305940982466130E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8963953436451452E-006           OLP:   -4.8963953436458939E-006
ABS integral  = 0.8951E-06  +/-  0.1763E-08  (   0.197 %)
Integral      = 0.5153E-06  +/-  0.2016E-08  (   0.391 %)
Virtual       = -.5742E-09  +/-  0.1047E-08  ( 182.337 %)
Virtual ratio = -.1957E+00  +/-  0.4133E-03  (   0.211 %)
ABS virtual   = 0.4843E-06  +/-  0.8230E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2680E-08  (   0.139 %)
V  2          = -.5742E-09  +/-  0.1047E-08  ( 182.337 %)
B  2          = 0.1922E-05  +/-  0.2680E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8951E-06  +/-  0.1763E-08  (   0.197 %)
accumulated results Integral      = 0.5153E-06  +/-  0.2016E-08  (   0.391 %)
accumulated results Virtual       = -.5742E-09  +/-  0.1047E-08  ( 182.337 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4133E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8230E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2680E-08  (   0.139 %)
accumulated results V  2          = -.5742E-09  +/-  0.1047E-08  ( 182.337 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2680E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202538    23146  0.3256E-06  0.1833E-06  0.1000E+01
channel    2 :     1 T   209310    24358  0.3330E-06  0.2013E-06  0.9897E+00
channel    3 :     2 T    72622     8697  0.1165E-06  0.6212E-07  0.1000E+01
channel    4 :     2 T    75405     9333  0.1200E-06  0.6866E-07  0.9209E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9514303272002729E-007  +/-   1.7631838122302244E-009
 Final result:   5.1532093684165767E-007  +/-   2.0163552106058099E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408895
   Stability unknown:                                          0
   Stable PS point:                                       408895
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408895
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408895
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.39925909    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.17292023    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.88710070    
 Time spent in Integrated_CT :    8.77154541    
 Time spent in Virtuals :    535.816284    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.64763784    
 Time spent in N1body_prefactor :   0.728447616    
 Time spent in Adding_alphas_pdf :    9.43607140    
 Time spent in Reweight_scale :    41.4625702    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4642735    
 Time spent in Applying_cuts :    5.06636524    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.4818497    
 Time spent in Other_tasks :    22.8748169    
 Time spent in Total :    692.209229    
Time in seconds: 730



LOG file for integration channel /P0_uux_emep/all_G1_58, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18082
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          58
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 183106
  with seed                   48
 Ranmar initialization seeds       30233       12043
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431173D+04 0.431173D+04  1.00
 muF1, muF1_reference: 0.431173D+04 0.431173D+04  1.00
 muF2, muF2_reference: 0.431173D+04 0.431173D+04  1.00
 QES,  QES_reference:  0.431173D+04 0.431173D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4854180643181528E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3466727692651640E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5115958349642784E-005           OLP:   -1.5115958349642784E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -3.2825954219062888E-006           OLP:   -3.2825954219064565E-006
  FINITE:
           OLP:   -1.0938067784189754E-003
           BORN:    4.3563570931994672E-003
  MOMENTA (Exyzm): 
           1   2634.6699288398763        0.0000000000000000        0.0000000000000000        2634.6699288398763        0.0000000000000000     
           2   2634.6699288398763       -0.0000000000000000       -0.0000000000000000       -2634.6699288398763        0.0000000000000000     
           3   2634.6699288398763       -2102.1746433010717       -119.26006833562117        1583.7059193851976        0.0000000000000000     
           4   2634.6699288398763        2102.1746433010717        119.26006833562117       -1583.7059193851976        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5115958349642784E-005           OLP:   -1.5115958349642784E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -3.2825954219062909E-006           OLP:   -3.2825954219064565E-006
ABS integral  = 0.8956E-06  +/-  0.2155E-08  (   0.241 %)
Integral      = 0.5128E-06  +/-  0.2368E-08  (   0.462 %)
Virtual       = -.1053E-08  +/-  0.1049E-08  (  99.588 %)
Virtual ratio = -.1956E+00  +/-  0.4135E-03  (   0.211 %)
ABS virtual   = 0.4846E-06  +/-  0.8251E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2679E-08  (   0.139 %)
V  2          = -.1053E-08  +/-  0.1049E-08  (  99.588 %)
B  2          = 0.1922E-05  +/-  0.2679E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8956E-06  +/-  0.2155E-08  (   0.241 %)
accumulated results Integral      = 0.5128E-06  +/-  0.2368E-08  (   0.462 %)
accumulated results Virtual       = -.1053E-08  +/-  0.1049E-08  (  99.588 %)
accumulated results Virtual ratio = -.1956E+00  +/-  0.4135E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4846E-06  +/-  0.8251E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2679E-08  (   0.139 %)
accumulated results V  2          = -.1053E-08  +/-  0.1049E-08  (  99.588 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2679E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202598    23146  0.3256E-06  0.1858E-06  0.1000E+01
channel    2 :     1 T   209468    24358  0.3326E-06  0.1977E-06  0.7006E+00
channel    3 :     2 T    72324     8697  0.1167E-06  0.6140E-07  0.9208E+00
channel    4 :     2 T    75484     9333  0.1207E-06  0.6784E-07  0.8949E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9556226089693044E-007  +/-   2.1551146740238080E-009
 Final result:   5.1275103965624803E-007  +/-   2.3680055555545999E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408658
   Stability unknown:                                          0
   Stable PS point:                                       408658
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408658
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408658
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.39865565    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.17755222    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.91909170    
 Time spent in Integrated_CT :    8.81805420    
 Time spent in Virtuals :    539.846252    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.76789474    
 Time spent in N1body_prefactor :   0.737392485    
 Time spent in Adding_alphas_pdf :    9.43763351    
 Time spent in Reweight_scale :    41.4578323    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4716063    
 Time spent in Applying_cuts :    5.11132526    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.5704575    
 Time spent in Other_tasks :    22.6958008    
 Time spent in Total :    696.409485    
Time in seconds: 730



LOG file for integration channel /P0_uux_emep/all_G1_59, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18110
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          59
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 186263
  with seed                   48
 Ranmar initialization seeds       30233       15200
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443035D+04 0.443035D+04  1.00
 muF1, muF1_reference: 0.443035D+04 0.443035D+04  1.00
 muF2, muF2_reference: 0.443035D+04 0.443035D+04  1.00
 QES,  QES_reference:  0.443035D+04 0.443035D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4663240508045833E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4081615614446206E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4260439828508453E-005           OLP:   -1.4260439828508459E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9786458039671900E-006           OLP:   -4.9786458039669951E-006
  FINITE:
           OLP:   -9.5773545235907438E-004
           BORN:    4.1098001702641026E-003
  MOMENTA (Exyzm): 
           1   2408.2609760175515        0.0000000000000000        0.0000000000000000        2408.2609760175515        0.0000000000000000     
           2   2408.2609760175515       -0.0000000000000000       -0.0000000000000000       -2408.2609760175515        0.0000000000000000     
           3   2408.2609760175515       -1630.9151155567624       -1167.5258110372999        1332.9367183100537        0.0000000000000000     
           4   2408.2609760175515        1630.9151155567624        1167.5258110372999       -1332.9367183100537        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4260439828508453E-005           OLP:   -1.4260439828508459E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9786458039671900E-006           OLP:   -4.9786458039669951E-006
ABS integral  = 0.8911E-06  +/-  0.1765E-08  (   0.198 %)
Integral      = 0.5121E-06  +/-  0.2017E-08  (   0.394 %)
Virtual       = 0.5345E-09  +/-  0.1042E-08  ( 194.971 %)
Virtual ratio = -.1951E+00  +/-  0.4137E-03  (   0.212 %)
ABS virtual   = 0.4828E-06  +/-  0.8185E-09  (   0.170 %)
Born          = 0.1914E-05  +/-  0.2656E-08  (   0.139 %)
V  2          = 0.5345E-09  +/-  0.1042E-08  ( 194.971 %)
B  2          = 0.1914E-05  +/-  0.2656E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8911E-06  +/-  0.1765E-08  (   0.198 %)
accumulated results Integral      = 0.5121E-06  +/-  0.2017E-08  (   0.394 %)
accumulated results Virtual       = 0.5345E-09  +/-  0.1042E-08  ( 194.971 %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4137E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8185E-09  (   0.170 %)
accumulated results Born          = 0.1914E-05  +/-  0.2656E-08  (   0.139 %)
accumulated results V  2          = 0.5345E-09  +/-  0.1042E-08  ( 194.971 %)
accumulated results B  2          = 0.1914E-05  +/-  0.2656E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202476    23146  0.3249E-06  0.1823E-06  0.1000E+01
channel    2 :     1 T   209152    24358  0.3302E-06  0.1994E-06  0.9976E+00
channel    3 :     2 T    72593     8697  0.1166E-06  0.6297E-07  0.9926E+00
channel    4 :     2 T    75654     9333  0.1193E-06  0.6742E-07  0.9007E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9107075028207184E-007  +/-   1.7654425743160017E-009
 Final result:   5.1209073243829454E-007  +/-   2.0165798174180174E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408214
   Stability unknown:                                          0
   Stable PS point:                                       408214
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408214
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408214
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.40854037    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.16921806    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.86479902    
 Time spent in Integrated_CT :    8.76269531    
 Time spent in Virtuals :    536.268494    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.67411232    
 Time spent in N1body_prefactor :   0.737854004    
 Time spent in Adding_alphas_pdf :    9.48820591    
 Time spent in Reweight_scale :    41.3971939    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8914785    
 Time spent in Applying_cuts :    5.14728355    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.7021446    
 Time spent in Other_tasks :    22.9023438    
 Time spent in Total :    694.414429    
Time in seconds: 730



LOG file for integration channel /P0_uux_emep/all_G1_60, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18071
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          60
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 189420
  with seed                   48
 Ranmar initialization seeds       30233       18357
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436395D+04 0.436395D+04  1.00
 muF1, muF1_reference: 0.436395D+04 0.436395D+04  1.00
 muF2, muF2_reference: 0.436395D+04 0.436395D+04  1.00
 QES,  QES_reference:  0.436395D+04 0.436395D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4769367953595567E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4062655494262220E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4206023930966301E-005           OLP:   -1.4206023930966298E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0758645273866550E-006           OLP:   -5.0758645273868837E-006
  FINITE:
           OLP:   -9.5414602974318611E-004
           BORN:    4.0941177321574792E-003
  MOMENTA (Exyzm): 
           1   2414.8868522389776        0.0000000000000000        0.0000000000000000        2414.8868522389776        0.0000000000000000     
           2   2414.8868522389776       -0.0000000000000000       -0.0000000000000000       -2414.8868522389776        0.0000000000000000     
           3   2414.8868522389776       -1670.4736041464964       -1128.9473147064716        1329.1630477798944        0.0000000000000000     
           4   2414.8868522389776        1670.4736041464964        1128.9473147064716       -1329.1630477798944        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4206023930966301E-005           OLP:   -1.4206023930966298E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0758645273866550E-006           OLP:   -5.0758645273868837E-006
ABS integral  = 0.8921E-06  +/-  0.1784E-08  (   0.200 %)
Integral      = 0.5159E-06  +/-  0.2032E-08  (   0.394 %)
Virtual       = 0.1386E-08  +/-  0.1041E-08  (  75.091 %)
Virtual ratio = -.1949E+00  +/-  0.4133E-03  (   0.212 %)
ABS virtual   = 0.4829E-06  +/-  0.8170E-09  (   0.169 %)
Born          = 0.1917E-05  +/-  0.2659E-08  (   0.139 %)
V  2          = 0.1386E-08  +/-  0.1041E-08  (  75.091 %)
B  2          = 0.1917E-05  +/-  0.2659E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8921E-06  +/-  0.1784E-08  (   0.200 %)
accumulated results Integral      = 0.5159E-06  +/-  0.2032E-08  (   0.394 %)
accumulated results Virtual       = 0.1386E-08  +/-  0.1041E-08  (  75.091 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4133E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4829E-06  +/-  0.8170E-09  (   0.169 %)
accumulated results Born          = 0.1917E-05  +/-  0.2659E-08  (   0.139 %)
accumulated results V  2          = 0.1386E-08  +/-  0.1041E-08  (  75.091 %)
accumulated results B  2          = 0.1917E-05  +/-  0.2659E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202738    23146  0.3265E-06  0.1866E-06  0.9859E+00
channel    2 :     1 T   208423    24358  0.3283E-06  0.1990E-06  0.9815E+00
channel    3 :     2 T    72913     8697  0.1168E-06  0.6277E-07  0.9973E+00
channel    4 :     2 T    75796     9333  0.1206E-06  0.6746E-07  0.9159E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9213313878311185E-007  +/-   1.7838184763487594E-009
 Final result:   5.1589050679876327E-007  +/-   2.0318026467238527E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408436
   Stability unknown:                                          0
   Stable PS point:                                       408436
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408436
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408436
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.39253628    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.18167591    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.91044807    
 Time spent in Integrated_CT :    8.84167480    
 Time spent in Virtuals :    535.149658    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.75980806    
 Time spent in N1body_prefactor :   0.730225682    
 Time spent in Adding_alphas_pdf :    9.43110180    
 Time spent in Reweight_scale :    41.5489960    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6488590    
 Time spent in Applying_cuts :    5.12757730    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.6685333    
 Time spent in Other_tasks :    22.8630371    
 Time spent in Total :    692.254150    
Time in seconds: 730



LOG file for integration channel /P0_uux_emep/all_G1_61, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42920
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          61
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 192577
  with seed                   48
 Ranmar initialization seeds       30233       21514
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.410072D+04 0.410072D+04  1.00
 muF1, muF1_reference: 0.410072D+04 0.410072D+04  1.00
 muF2, muF2_reference: 0.410072D+04 0.410072D+04  1.00
 QES,  QES_reference:  0.410072D+04 0.410072D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5209679963281928E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4074652591630222E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4260005827415294E-005           OLP:   -1.4260005827415299E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9794098450050485E-006           OLP:   -4.9794098450050087E-006
  FINITE:
           OLP:   -9.5826068526071910E-004
           BORN:    4.1096750929321257E-003
  MOMENTA (Exyzm): 
           1   2410.6917748203855        0.0000000000000000        0.0000000000000000        2410.6917748203855        0.0000000000000000     
           2   2410.6917748203855       -0.0000000000000000       -0.0000000000000000       -2410.6917748203855        0.0000000000000000     
           3   2410.6917748203855       -2000.6254775244663       -169.64350869169252        1334.2239736361482        0.0000000000000000     
           4   2410.6917748203855        2000.6254775244663        169.64350869169252       -1334.2239736361482        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4260005827415294E-005           OLP:   -1.4260005827415299E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9794098450050493E-006           OLP:   -4.9794098450050087E-006
ABS integral  = 0.8965E-06  +/-  0.1851E-08  (   0.206 %)
Integral      = 0.5120E-06  +/-  0.2096E-08  (   0.409 %)
Virtual       = -.2025E-08  +/-  0.1048E-08  (  51.743 %)
Virtual ratio = -.1960E+00  +/-  0.4131E-03  (   0.211 %)
ABS virtual   = 0.4844E-06  +/-  0.8240E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2679E-08  (   0.139 %)
V  2          = -.2025E-08  +/-  0.1048E-08  (  51.743 %)
B  2          = 0.1922E-05  +/-  0.2679E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8965E-06  +/-  0.1851E-08  (   0.206 %)
accumulated results Integral      = 0.5120E-06  +/-  0.2096E-08  (   0.409 %)
accumulated results Virtual       = -.2025E-08  +/-  0.1048E-08  (  51.743 %)
accumulated results Virtual ratio = -.1960E+00  +/-  0.4131E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8240E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2679E-08  (   0.139 %)
accumulated results V  2          = -.2025E-08  +/-  0.1048E-08  (  51.743 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2679E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203040    23146  0.3275E-06  0.1838E-06  0.9489E+00
channel    2 :     1 T   209570    24358  0.3331E-06  0.1979E-06  0.9505E+00
channel    3 :     2 T    72222     8697  0.1161E-06  0.6126E-07  0.1000E+01
channel    4 :     2 T    75039     9333  0.1198E-06  0.6910E-07  0.9267E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9646489006415949E-007  +/-   1.8507744763399023E-009
 Final result:   5.1201078602115378E-007  +/-   2.0958390339123845E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408692
   Stability unknown:                                          0
   Stable PS point:                                       408692
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408692
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408692
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58105397    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.52325773    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.73625231    
 Time spent in Integrated_CT :    10.1909180    
 Time spent in Virtuals :    612.783264    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.24482441    
 Time spent in N1body_prefactor :   0.849753797    
 Time spent in Adding_alphas_pdf :    10.8000851    
 Time spent in Reweight_scale :    45.4068451    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.3438244    
 Time spent in Applying_cuts :    5.98996258    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.1628723    
 Time spent in Other_tasks :    26.7869263    
 Time spent in Total :    800.399841    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_62, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42937
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          62
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 195734
  with seed                   48
 Ranmar initialization seeds       30233       24671
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.332728D+04 0.332728D+04  1.00
 muF1, muF1_reference: 0.332728D+04 0.332728D+04  1.00
 muF2, muF2_reference: 0.332728D+04 0.332728D+04  1.00
 QES,  QES_reference:  0.332728D+04 0.332728D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6727455239076758E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4084000075105419E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4314678664304490E-005           OLP:   -1.4314678664304474E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8805077450155885E-006           OLP:   -4.8805077450155767E-006
  FINITE:
           OLP:   -9.6265463488175965E-004
           BORN:    4.1254315799029448E-003
  MOMENTA (Exyzm): 
           1   2407.4292312201301        0.0000000000000000        0.0000000000000000        2407.4292312201301        0.0000000000000000     
           2   2407.4292312201301       -0.0000000000000000       -0.0000000000000000       -2407.4292312201301        0.0000000000000000     
           3   2407.4292312201301       -1689.1753425766597       -1071.0685238336971        1339.8561051907316        0.0000000000000000     
           4   2407.4292312201301        1689.1753425766597        1071.0685238336971       -1339.8561051907316        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4314678664304490E-005           OLP:   -1.4314678664304474E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8805077450155860E-006           OLP:   -4.8805077450155767E-006
ABS integral  = 0.8960E-06  +/-  0.1902E-08  (   0.212 %)
Integral      = 0.5153E-06  +/-  0.2139E-08  (   0.415 %)
Virtual       = 0.8687E-09  +/-  0.1045E-08  ( 120.265 %)
Virtual ratio = -.1948E+00  +/-  0.4134E-03  (   0.212 %)
ABS virtual   = 0.4838E-06  +/-  0.8205E-09  (   0.170 %)
Born          = 0.1919E-05  +/-  0.2674E-08  (   0.139 %)
V  2          = 0.8687E-09  +/-  0.1045E-08  ( 120.265 %)
B  2          = 0.1919E-05  +/-  0.2674E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8960E-06  +/-  0.1902E-08  (   0.212 %)
accumulated results Integral      = 0.5153E-06  +/-  0.2139E-08  (   0.415 %)
accumulated results Virtual       = 0.8687E-09  +/-  0.1045E-08  ( 120.265 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4134E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8205E-09  (   0.170 %)
accumulated results Born          = 0.1919E-05  +/-  0.2674E-08  (   0.139 %)
accumulated results V  2          = 0.8687E-09  +/-  0.1045E-08  ( 120.265 %)
accumulated results B  2          = 0.1919E-05  +/-  0.2674E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202800    23146  0.3270E-06  0.1867E-06  0.1000E+01
channel    2 :     1 T   209468    24358  0.3325E-06  0.1994E-06  0.8657E+00
channel    3 :     2 T    72572     8697  0.1175E-06  0.6370E-07  0.9865E+00
channel    4 :     2 T    75031     9333  0.1191E-06  0.6544E-07  0.8900E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9601019916761567E-007  +/-   1.9018703437156155E-009
 Final result:   5.1527379804519058E-007  +/-   2.1393557467284869E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408697
   Stability unknown:                                          0
   Stable PS point:                                       408697
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408697
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408697
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58540738    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.54360676    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.74759436    
 Time spent in Integrated_CT :    10.1304321    
 Time spent in Virtuals :    614.050964    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.26683426    
 Time spent in N1body_prefactor :   0.850536764    
 Time spent in Adding_alphas_pdf :    10.7723293    
 Time spent in Reweight_scale :    45.6812782    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.4774017    
 Time spent in Applying_cuts :    6.15101910    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.1386604    
 Time spent in Other_tasks :    27.1323853    
 Time spent in Total :    802.528442    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_63, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42936
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          63
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 198891
  with seed                   48
 Ranmar initialization seeds       30233       27828
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411873D+04 0.411873D+04  1.00
 muF1, muF1_reference: 0.411873D+04 0.411873D+04  1.00
 muF2, muF2_reference: 0.411873D+04 0.411873D+04  1.00
 QES,  QES_reference:  0.411873D+04 0.411873D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5178499397316578E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4070048398742039E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4329546166935655E-005           OLP:   -1.4329546166935679E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8533619224355186E-006           OLP:   -4.8533619224352899E-006
  FINITE:
           OLP:   -9.6519821828805583E-004
           BORN:    4.1297163330788469E-003
  MOMENTA (Exyzm): 
           1   2412.3007130884976        0.0000000000000000        0.0000000000000000        2412.3007130884976        0.0000000000000000     
           2   2412.3007130884976       -0.0000000000000000       -0.0000000000000000       -2412.3007130884976        0.0000000000000000     
           3   2412.3007130884976       -1706.0620333620900       -1049.1020386402506        1344.5936119172043        0.0000000000000000     
           4   2412.3007130884976        1706.0620333620900        1049.1020386402506       -1344.5936119172043        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4329546166935655E-005           OLP:   -1.4329546166935679E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8533619224355195E-006           OLP:   -4.8533619224352899E-006
ABS integral  = 0.8943E-06  +/-  0.1798E-08  (   0.201 %)
Integral      = 0.5143E-06  +/-  0.2046E-08  (   0.398 %)
Virtual       = 0.4088E-09  +/-  0.1042E-08  ( 254.974 %)
Virtual ratio = -.1950E+00  +/-  0.4130E-03  (   0.212 %)
ABS virtual   = 0.4837E-06  +/-  0.8177E-09  (   0.169 %)
Born          = 0.1919E-05  +/-  0.2669E-08  (   0.139 %)
V  2          = 0.4088E-09  +/-  0.1042E-08  ( 254.974 %)
B  2          = 0.1919E-05  +/-  0.2669E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8943E-06  +/-  0.1798E-08  (   0.201 %)
accumulated results Integral      = 0.5143E-06  +/-  0.2046E-08  (   0.398 %)
accumulated results Virtual       = 0.4088E-09  +/-  0.1042E-08  ( 254.974 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4130E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8177E-09  (   0.169 %)
accumulated results Born          = 0.1919E-05  +/-  0.2669E-08  (   0.139 %)
accumulated results V  2          = 0.4088E-09  +/-  0.1042E-08  ( 254.974 %)
accumulated results B  2          = 0.1919E-05  +/-  0.2669E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202829    23146  0.3268E-06  0.1853E-06  0.1000E+01
channel    2 :     1 T   209188    24358  0.3307E-06  0.1981E-06  0.9566E+00
channel    3 :     2 T    72409     8697  0.1170E-06  0.6229E-07  0.9671E+00
channel    4 :     2 T    75445     9333  0.1198E-06  0.6863E-07  0.9259E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9428383353927249E-007  +/-   1.7977903968698731E-009
 Final result:   5.1426969894883474E-007  +/-   2.0464868858144186E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408897
   Stability unknown:                                          0
   Stable PS point:                                       408897
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408897
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408897
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58763051    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.55206203    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.79960966    
 Time spent in Integrated_CT :    10.1002808    
 Time spent in Virtuals :    614.648926    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.27639389    
 Time spent in N1body_prefactor :   0.841880441    
 Time spent in Adding_alphas_pdf :    11.8419790    
 Time spent in Reweight_scale :    48.5049667    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.8535862    
 Time spent in Applying_cuts :    6.16444683    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.1219215    
 Time spent in Other_tasks :    26.8849487    
 Time spent in Total :    807.178589    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_64, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42921
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          64
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 202048
  with seed                   48
 Ranmar initialization seeds       30233         904
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433633D+04 0.433633D+04  1.00
 muF1, muF1_reference: 0.433633D+04 0.433633D+04  1.00
 muF2, muF2_reference: 0.433633D+04 0.433633D+04  1.00
 QES,  QES_reference:  0.433633D+04 0.433633D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4814078806203235E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4083653158730958E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4212182007899795E-005           OLP:   -1.4212182007899799E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0649666222794565E-006           OLP:   -5.0649666222795057E-006
  FINITE:
           OLP:   -9.5302548951144671E-004
           BORN:    4.0958924646295573E-003
  MOMENTA (Exyzm): 
           1   2407.5502208559706        0.0000000000000000        0.0000000000000000        2407.5502208559706        0.0000000000000000     
           2   2407.5502208559706       -0.0000000000000000       -0.0000000000000000       -2407.5502208559706        0.0000000000000000     
           3   2407.5502208559706       -1983.9348969141986       -319.56829192830071        1325.9624796892667        0.0000000000000000     
           4   2407.5502208559706        1983.9348969141986        319.56829192830071       -1325.9624796892667        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4212182007899795E-005           OLP:   -1.4212182007899799E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0649666222794565E-006           OLP:   -5.0649666222795057E-006
 Error #15 in genps_fks.f  -1.0356307029724121E-006           4
ABS integral  = 0.8942E-06  +/-  0.1930E-08  (   0.216 %)
Integral      = 0.5112E-06  +/-  0.2165E-08  (   0.423 %)
Virtual       = -.1385E-08  +/-  0.1042E-08  (  75.219 %)
Virtual ratio = -.1956E+00  +/-  0.4130E-03  (   0.211 %)
ABS virtual   = 0.4832E-06  +/-  0.8173E-09  (   0.169 %)
Born          = 0.1920E-05  +/-  0.2663E-08  (   0.139 %)
V  2          = -.1385E-08  +/-  0.1042E-08  (  75.219 %)
B  2          = 0.1920E-05  +/-  0.2663E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8942E-06  +/-  0.1930E-08  (   0.216 %)
accumulated results Integral      = 0.5112E-06  +/-  0.2165E-08  (   0.423 %)
accumulated results Virtual       = -.1385E-08  +/-  0.1042E-08  (  75.219 %)
accumulated results Virtual ratio = -.1956E+00  +/-  0.4130E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8173E-09  (   0.169 %)
accumulated results Born          = 0.1920E-05  +/-  0.2663E-08  (   0.139 %)
accumulated results V  2          = -.1385E-08  +/-  0.1042E-08  (  75.219 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2663E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203077    23146  0.3258E-06  0.1846E-06  0.9823E+00
channel    2 :     1 T   208332    24358  0.3307E-06  0.1969E-06  0.9648E+00
channel    3 :     2 T    72379     8697  0.1167E-06  0.6329E-07  0.1000E+01
channel    4 :     2 T    76088     9333  0.1210E-06  0.6643E-07  0.6814E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9416558740812943E-007  +/-   1.9299540597355886E-009
 Final result:   5.1123721706378590E-007  +/-   2.1647073129401674E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409012
   Stability unknown:                                          0
   Stable PS point:                                       409012
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409012
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409012
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.60323131    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.56149864    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.85053253    
 Time spent in Integrated_CT :    10.2349854    
 Time spent in Virtuals :    617.974609    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.21530342    
 Time spent in N1body_prefactor :   0.839734375    
 Time spent in Adding_alphas_pdf :    10.8746471    
 Time spent in Reweight_scale :    45.7762299    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6773643    
 Time spent in Applying_cuts :    6.13645077    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.1987381    
 Time spent in Other_tasks :    26.9126587    
 Time spent in Total :    806.856018    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_65, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42904
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          65
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 205205
  with seed                   48
 Ranmar initialization seeds       30233        4061
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435222D+04 0.435222D+04  1.00
 muF1, muF1_reference: 0.435222D+04 0.435222D+04  1.00
 muF2, muF2_reference: 0.435222D+04 0.435222D+04  1.00
 QES,  QES_reference:  0.435222D+04 0.435222D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4788313201100159E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4065645942897315E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4215772103224047E-005           OLP:   -1.4215772103224040E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0585355436019997E-006           OLP:   -5.0585355436019810E-006
  FINITE:
           OLP:   -9.5482241852565589E-004
           BORN:    4.0969271153522774E-003
  MOMENTA (Exyzm): 
           1   2413.8403537864069        0.0000000000000000        0.0000000000000000        2413.8403537864069        0.0000000000000000     
           2   2413.8403537864069       -0.0000000000000000       -0.0000000000000000       -2413.8403537864069        0.0000000000000000     
           3   2413.8403537864069       -2013.2576220216313       -68.773250130478957        1329.9207649352588        0.0000000000000000     
           4   2413.8403537864069        2013.2576220216313        68.773250130478957       -1329.9207649352588        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4215772103224047E-005           OLP:   -1.4215772103224040E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0585355436019997E-006           OLP:   -5.0585355436019810E-006
ABS integral  = 0.8906E-06  +/-  0.1752E-08  (   0.197 %)
Integral      = 0.5153E-06  +/-  0.2003E-08  (   0.389 %)
Virtual       = 0.6948E-09  +/-  0.1043E-08  ( 150.048 %)
Virtual ratio = -.1952E+00  +/-  0.4131E-03  (   0.212 %)
ABS virtual   = 0.4828E-06  +/-  0.8189E-09  (   0.170 %)
Born          = 0.1916E-05  +/-  0.2660E-08  (   0.139 %)
V  2          = 0.6948E-09  +/-  0.1043E-08  ( 150.048 %)
B  2          = 0.1916E-05  +/-  0.2660E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8906E-06  +/-  0.1752E-08  (   0.197 %)
accumulated results Integral      = 0.5153E-06  +/-  0.2003E-08  (   0.389 %)
accumulated results Virtual       = 0.6948E-09  +/-  0.1043E-08  ( 150.048 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4131E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8189E-09  (   0.170 %)
accumulated results Born          = 0.1916E-05  +/-  0.2660E-08  (   0.139 %)
accumulated results V  2          = 0.6948E-09  +/-  0.1043E-08  ( 150.048 %)
accumulated results B  2          = 0.1916E-05  +/-  0.2660E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202591    23146  0.3248E-06  0.1865E-06  0.1000E+01
channel    2 :     1 T   208792    24358  0.3303E-06  0.1987E-06  0.9742E+00
channel    3 :     2 T    72849     8697  0.1161E-06  0.6323E-07  0.9865E+00
channel    4 :     2 T    75635     9333  0.1194E-06  0.6687E-07  0.9216E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9060317227049284E-007  +/-   1.7519205710108200E-009
 Final result:   5.1525732030194008E-007  +/-   2.0029313028327841E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408405
   Stability unknown:                                          0
   Stable PS point:                                       408405
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408405
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408405
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58370709    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.50974607    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.82496548    
 Time spent in Integrated_CT :    10.0813599    
 Time spent in Virtuals :    611.491943    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.27261162    
 Time spent in N1body_prefactor :   0.862374544    
 Time spent in Adding_alphas_pdf :    10.8385487    
 Time spent in Reweight_scale :    45.5920334    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6259060    
 Time spent in Applying_cuts :    5.96154308    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.0543060    
 Time spent in Other_tasks :    26.9685059    
 Time spent in Total :    799.667542    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_66, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42935
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          66
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 208362
  with seed                   48
 Ranmar initialization seeds       30233        7218
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.216904D+04 0.216904D+04  1.00
 muF1, muF1_reference: 0.216904D+04 0.216904D+04  1.00
 muF2, muF2_reference: 0.216904D+04 0.216904D+04  1.00
 QES,  QES_reference:  0.216904D+04 0.216904D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   8.0037881672940028E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4067658801352604E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4184758096273365E-005           OLP:   -1.4184758096273370E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1135620867547652E-006           OLP:   -5.1135620867547127E-006
  FINITE:
           OLP:   -9.5173757517105805E-004
           BORN:    4.0879890059686052E-003
  MOMENTA (Exyzm): 
           1   2413.1362650193132        0.0000000000000000        0.0000000000000000        2413.1362650193132        0.0000000000000000     
           2   2413.1362650193132       -0.0000000000000000       -0.0000000000000000       -2413.1362650193132        0.0000000000000000     
           3   2413.1362650193132       -2015.5094218859927       -67.543442476161346        1325.2872470595280        0.0000000000000000     
           4   2413.1362650193132        2015.5094218859927        67.543442476161346       -1325.2872470595280        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4184758096273365E-005           OLP:   -1.4184758096273370E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1135620867547618E-006           OLP:   -5.1135620867547127E-006
ABS integral  = 0.8902E-06  +/-  0.1777E-08  (   0.200 %)
Integral      = 0.5124E-06  +/-  0.2026E-08  (   0.395 %)
Virtual       = 0.8830E-09  +/-  0.1041E-08  ( 117.854 %)
Virtual ratio = -.1951E+00  +/-  0.4128E-03  (   0.212 %)
ABS virtual   = 0.4820E-06  +/-  0.8173E-09  (   0.170 %)
Born          = 0.1913E-05  +/-  0.2663E-08  (   0.139 %)
V  2          = 0.8830E-09  +/-  0.1041E-08  ( 117.854 %)
B  2          = 0.1913E-05  +/-  0.2663E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8902E-06  +/-  0.1777E-08  (   0.200 %)
accumulated results Integral      = 0.5124E-06  +/-  0.2026E-08  (   0.395 %)
accumulated results Virtual       = 0.8830E-09  +/-  0.1041E-08  ( 117.854 %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4128E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4820E-06  +/-  0.8173E-09  (   0.170 %)
accumulated results Born          = 0.1913E-05  +/-  0.2663E-08  (   0.139 %)
accumulated results V  2          = 0.8830E-09  +/-  0.1041E-08  ( 117.854 %)
accumulated results B  2          = 0.1913E-05  +/-  0.2663E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202638    23146  0.3250E-06  0.1849E-06  0.1000E+01
channel    2 :     1 T   209239    24358  0.3305E-06  0.1979E-06  0.9799E+00
channel    3 :     2 T    72611     8697  0.1160E-06  0.6135E-07  0.9687E+00
channel    4 :     2 T    75384     9333  0.1187E-06  0.6831E-07  0.9021E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9019195565891562E-007  +/-   1.7773735692990995E-009
 Final result:   5.1243736812196108E-007  +/-   2.0261868693640056E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408301
   Stability unknown:                                          0
   Stable PS point:                                       408301
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408301
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408301
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.60286927    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.51408243    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.75804758    
 Time spent in Integrated_CT :    10.0491943    
 Time spent in Virtuals :    614.402344    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.19968987    
 Time spent in N1body_prefactor :   0.852260351    
 Time spent in Adding_alphas_pdf :    10.7609596    
 Time spent in Reweight_scale :    45.2681274    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.5091400    
 Time spent in Applying_cuts :    6.02954388    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.0967484    
 Time spent in Other_tasks :    26.8590088    
 Time spent in Total :    801.902039    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_67, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42913
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          67
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 211519
  with seed                   48
 Ranmar initialization seeds       30233       10375
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.407972D+04 0.407972D+04  1.00
 muF1, muF1_reference: 0.407972D+04 0.407972D+04  1.00
 muF2, muF2_reference: 0.407972D+04 0.407972D+04  1.00
 QES,  QES_reference:  0.407972D+04 0.407972D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5246246947023504E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4067096765369989E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4217001691231913E-005           OLP:   -1.4217001691231903E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0563495339625583E-006           OLP:   -5.0563495339621144E-006
  FINITE:
           OLP:   -9.5482067746062958E-004
           BORN:    4.0972814775644432E-003
  MOMENTA (Exyzm): 
           1   2413.3328379747636        0.0000000000000000        0.0000000000000000        2413.3328379747636        0.0000000000000000     
           2   2413.3328379747636       -0.0000000000000000       -0.0000000000000000       -2413.3328379747636        0.0000000000000000     
           3   2413.3328379747636       -1279.4002688782996       -1555.2871085412764        1329.8091400072333        0.0000000000000000     
           4   2413.3328379747636        1279.4002688782996        1555.2871085412764       -1329.8091400072333        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4217001691231913E-005           OLP:   -1.4217001691231903E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0563495339625583E-006           OLP:   -5.0563495339621144E-006
ABS integral  = 0.8983E-06  +/-  0.2174E-08  (   0.242 %)
Integral      = 0.5148E-06  +/-  0.2386E-08  (   0.463 %)
Virtual       = 0.6046E-09  +/-  0.1047E-08  ( 173.152 %)
Virtual ratio = -.1950E+00  +/-  0.4127E-03  (   0.212 %)
ABS virtual   = 0.4845E-06  +/-  0.8226E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2670E-08  (   0.139 %)
V  2          = 0.6046E-09  +/-  0.1047E-08  ( 173.152 %)
B  2          = 0.1922E-05  +/-  0.2670E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8983E-06  +/-  0.2174E-08  (   0.242 %)
accumulated results Integral      = 0.5148E-06  +/-  0.2386E-08  (   0.463 %)
accumulated results Virtual       = 0.6046E-09  +/-  0.1047E-08  ( 173.152 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4127E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4845E-06  +/-  0.8226E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2670E-08  (   0.139 %)
accumulated results V  2          = 0.6046E-09  +/-  0.1047E-08  ( 173.152 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2670E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203114    23146  0.3266E-06  0.1859E-06  0.8746E+00
channel    2 :     1 T   208665    24358  0.3322E-06  0.1992E-06  0.9614E+00
channel    3 :     2 T    72452     8697  0.1185E-06  0.6158E-07  0.5972E+00
channel    4 :     2 T    75636     9333  0.1210E-06  0.6809E-07  0.9009E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9829973203756625E-007  +/-   2.1736992136611370E-009
 Final result:   5.1478295261420966E-007  +/-   2.3859885091444410E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409094
   Stability unknown:                                          0
   Stable PS point:                                       409094
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409094
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409094
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.57796741    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.54521513    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.74411488    
 Time spent in Integrated_CT :    10.0736084    
 Time spent in Virtuals :    614.260071    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.18778896    
 Time spent in N1body_prefactor :   0.835765600    
 Time spent in Adding_alphas_pdf :    10.8170652    
 Time spent in Reweight_scale :    45.4021187    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.4072495    
 Time spent in Applying_cuts :    6.03151751    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.1878738    
 Time spent in Other_tasks :    26.7354126    
 Time spent in Total :    801.805725    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_68, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42932
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          68
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 214676
  with seed                   48
 Ranmar initialization seeds       30233       13532
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.403296D+04 0.403296D+04  1.00
 muF1, muF1_reference: 0.403296D+04 0.403296D+04  1.00
 muF2, muF2_reference: 0.403296D+04 0.403296D+04  1.00
 QES,  QES_reference:  0.403296D+04 0.403296D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5328467317853059E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4063350455486579E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4314859380664084E-005           OLP:   -1.4314859380664073E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8801295085553698E-006           OLP:   -4.8801295085529372E-006
  FINITE:
           OLP:   -9.6435881244670660E-004
           BORN:    4.1254836616153156E-003
  MOMENTA (Exyzm): 
           1   2414.6436043408976        0.0000000000000000        0.0000000000000000        2414.6436043408976        0.0000000000000000     
           2   2414.6436043408976       -0.0000000000000000       -0.0000000000000000       -2414.6436043408976        0.0000000000000000     
           3   2414.6436043408976       -1493.8141480614870       -1339.0139960302224        1343.8990086576111        0.0000000000000000     
           4   2414.6436043408976        1493.8141480614870        1339.0139960302224       -1343.8990086576111        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4314859380664084E-005           OLP:   -1.4314859380664073E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8801295085553698E-006           OLP:   -4.8801295085529372E-006
ABS integral  = 0.8932E-06  +/-  0.2021E-08  (   0.226 %)
Integral      = 0.5140E-06  +/-  0.2245E-08  (   0.437 %)
Virtual       = 0.2315E-09  +/-  0.1045E-08  ( 451.257 %)
Virtual ratio = -.1958E+00  +/-  0.4133E-03  (   0.211 %)
ABS virtual   = 0.4833E-06  +/-  0.8212E-09  (   0.170 %)
Born          = 0.1918E-05  +/-  0.2668E-08  (   0.139 %)
V  2          = 0.2315E-09  +/-  0.1045E-08  ( 451.257 %)
B  2          = 0.1918E-05  +/-  0.2668E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8932E-06  +/-  0.2021E-08  (   0.226 %)
accumulated results Integral      = 0.5140E-06  +/-  0.2245E-08  (   0.437 %)
accumulated results Virtual       = 0.2315E-09  +/-  0.1045E-08  ( 451.257 %)
accumulated results Virtual ratio = -.1958E+00  +/-  0.4133E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8212E-09  (   0.170 %)
accumulated results Born          = 0.1918E-05  +/-  0.2668E-08  (   0.139 %)
accumulated results V  2          = 0.2315E-09  +/-  0.1045E-08  ( 451.257 %)
accumulated results B  2          = 0.1918E-05  +/-  0.2668E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202427    23146  0.3237E-06  0.1835E-06  0.9505E+00
channel    2 :     1 T   209197    24358  0.3335E-06  0.1994E-06  0.8271E+00
channel    3 :     2 T    72694     8697  0.1161E-06  0.6288E-07  0.9998E+00
channel    4 :     2 T    75557     9333  0.1199E-06  0.6818E-07  0.8185E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9317260679404725E-007  +/-   2.0214382157141940E-009
 Final result:   5.1397962952787070E-007  +/-   2.2448286655385022E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408654
   Stability unknown:                                          0
   Stable PS point:                                       408654
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408654
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408654
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.57617211    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.57432032    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.79358387    
 Time spent in Integrated_CT :    10.0228271    
 Time spent in Virtuals :    611.803772    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.15467834    
 Time spent in N1body_prefactor :   0.846683860    
 Time spent in Adding_alphas_pdf :    11.7477436    
 Time spent in Reweight_scale :    48.9059601    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.5848770    
 Time spent in Applying_cuts :    6.13465786    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.9585114    
 Time spent in Other_tasks :    26.9362793    
 Time spent in Total :    804.040039    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_69, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42938
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          69
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 217833
  with seed                   48
 Ranmar initialization seeds       30233       16689
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425033D+04 0.425033D+04  1.00
 muF1, muF1_reference: 0.425033D+04 0.425033D+04  1.00
 muF2, muF2_reference: 0.425033D+04 0.425033D+04  1.00
 QES,  QES_reference:  0.425033D+04 0.425033D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4955467261737047E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4060888544740619E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4217076267868312E-005           OLP:   -1.4217076267868306E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0562022452614625E-006           OLP:   -5.0562022452639714E-006
  FINITE:
           OLP:   -9.5533114378759578E-004
           BORN:    4.0973029702446586E-003
  MOMENTA (Exyzm): 
           1   2415.5054455351992        0.0000000000000000        0.0000000000000000        2415.5054455351992        0.0000000000000000     
           2   2415.5054455351992       -0.0000000000000000       -0.0000000000000000       -2415.5054455351992        0.0000000000000000     
           3   2415.5054455351992       -1389.1344048323149       -1460.6042348743426        1331.0174423306810        0.0000000000000000     
           4   2415.5054455351992        1389.1344048323149        1460.6042348743426       -1331.0174423306810        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4217076267868312E-005           OLP:   -1.4217076267868306E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0562022452614625E-006           OLP:   -5.0562022452639714E-006
ABS integral  = 0.8958E-06  +/-  0.1906E-08  (   0.213 %)
Integral      = 0.5167E-06  +/-  0.2142E-08  (   0.415 %)
Virtual       = 0.2931E-09  +/-  0.1046E-08  ( 356.946 %)
Virtual ratio = -.1950E+00  +/-  0.4131E-03  (   0.212 %)
ABS virtual   = 0.4843E-06  +/-  0.8219E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2674E-08  (   0.139 %)
V  2          = 0.2931E-09  +/-  0.1046E-08  ( 356.946 %)
B  2          = 0.1922E-05  +/-  0.2674E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8958E-06  +/-  0.1906E-08  (   0.213 %)
accumulated results Integral      = 0.5167E-06  +/-  0.2142E-08  (   0.415 %)
accumulated results Virtual       = 0.2931E-09  +/-  0.1046E-08  ( 356.946 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4131E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8219E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2674E-08  (   0.139 %)
accumulated results V  2          = 0.2931E-09  +/-  0.1046E-08  ( 356.946 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2674E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203211    23146  0.3272E-06  0.1881E-06  0.9868E+00
channel    2 :     1 T   208576    24358  0.3312E-06  0.1962E-06  0.8588E+00
channel    3 :     2 T    72528     8697  0.1176E-06  0.6474E-07  0.1000E+01
channel    4 :     2 T    75560     9333  0.1198E-06  0.6762E-07  0.9210E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9582737417090144E-007  +/-   1.9061957025863776E-009
 Final result:   5.1665184431161440E-007  +/-   2.1424726842194970E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408744
   Stability unknown:                                          0
   Stable PS point:                                       408744
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408744
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408744
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.61172342    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.56396341    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.82129908    
 Time spent in Integrated_CT :    10.2155151    
 Time spent in Virtuals :    614.042969    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.15064812    
 Time spent in N1body_prefactor :   0.855716944    
 Time spent in Adding_alphas_pdf :    11.9125423    
 Time spent in Reweight_scale :    48.9413834    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6646137    
 Time spent in Applying_cuts :    6.21336508    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.1540375    
 Time spent in Other_tasks :    27.1040039    
 Time spent in Total :    807.251831    
Time in seconds: 851



LOG file for integration channel /P0_uux_emep/all_G1_70, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42931
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          70
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 220990
  with seed                   48
 Ranmar initialization seeds       30233       19846
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422842D+04 0.422842D+04  1.00
 muF1, muF1_reference: 0.422842D+04 0.422842D+04  1.00
 muF2, muF2_reference: 0.422842D+04 0.422842D+04  1.00
 QES,  QES_reference:  0.422842D+04 0.422842D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4992017432552960E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4061102095728359E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4227544998203113E-005           OLP:   -1.4227544998203115E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0375371387316657E-006           OLP:   -5.0375371387318588E-006
  FINITE:
           OLP:   -9.5630095357721935E-004
           BORN:    4.1003200153168877E-003
  MOMENTA (Exyzm): 
           1   2415.4306731831662        0.0000000000000000        0.0000000000000000        2415.4306731831662        0.0000000000000000     
           2   2415.4306731831662       -0.0000000000000000       -0.0000000000000000       -2415.4306731831662        0.0000000000000000     
           3   2415.4306731831662       -1852.7258384929946       -791.45302430335869        1332.4092519401011        0.0000000000000000     
           4   2415.4306731831662        1852.7258384929946        791.45302430335869       -1332.4092519401011        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4227544998203113E-005           OLP:   -1.4227544998203115E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0375371387316665E-006           OLP:   -5.0375371387318588E-006
ABS integral  = 0.8945E-06  +/-  0.1772E-08  (   0.198 %)
Integral      = 0.5146E-06  +/-  0.2023E-08  (   0.393 %)
Virtual       = -.9662E-09  +/-  0.1047E-08  ( 108.385 %)
Virtual ratio = -.1958E+00  +/-  0.4130E-03  (   0.211 %)
ABS virtual   = 0.4841E-06  +/-  0.8234E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2671E-08  (   0.139 %)
V  2          = -.9662E-09  +/-  0.1047E-08  ( 108.385 %)
B  2          = 0.1922E-05  +/-  0.2671E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8945E-06  +/-  0.1772E-08  (   0.198 %)
accumulated results Integral      = 0.5146E-06  +/-  0.2023E-08  (   0.393 %)
accumulated results Virtual       = -.9662E-09  +/-  0.1047E-08  ( 108.385 %)
accumulated results Virtual ratio = -.1958E+00  +/-  0.4130E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8234E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2671E-08  (   0.139 %)
accumulated results V  2          = -.9662E-09  +/-  0.1047E-08  ( 108.385 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2671E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203047    23146  0.3266E-06  0.1860E-06  0.1000E+01
channel    2 :     1 T   209280    24358  0.3324E-06  0.1994E-06  0.9830E+00
channel    3 :     2 T    72680     8697  0.1168E-06  0.6149E-07  0.9536E+00
channel    4 :     2 T    74869     9333  0.1187E-06  0.6774E-07  0.9185E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9451074129309222E-007  +/-   1.7715205673149820E-009
 Final result:   5.1463550118382462E-007  +/-   2.0234614158711380E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408852
   Stability unknown:                                          0
   Stable PS point:                                       408852
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408852
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408852
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.61745143    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.53013229    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.76281834    
 Time spent in Integrated_CT :    10.2257690    
 Time spent in Virtuals :    617.758667    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.29494476    
 Time spent in N1body_prefactor :   0.845271230    
 Time spent in Adding_alphas_pdf :    10.9558258    
 Time spent in Reweight_scale :    45.7293816    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6105919    
 Time spent in Applying_cuts :    6.09559345    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.4048042    
 Time spent in Other_tasks :    27.2283936    
 Time spent in Total :    807.059570    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_71, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42914
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          71
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 224147
  with seed                   48
 Ranmar initialization seeds       30233       23003
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431531D+04 0.431531D+04  1.00
 muF1, muF1_reference: 0.431531D+04 0.431531D+04  1.00
 muF2, muF2_reference: 0.431531D+04 0.431531D+04  1.00
 QES,  QES_reference:  0.431531D+04 0.431531D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4848320917536931E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4091773308940428E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4173718795807892E-005           OLP:   -1.4173718795807886E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1331095576336423E-006           OLP:   -5.1331095576347359E-006
  FINITE:
           OLP:   -9.4875179197910909E-004
           BORN:    4.0848075249288757E-003
  MOMENTA (Exyzm): 
           1   2404.7201623050191        0.0000000000000000        0.0000000000000000        2404.7201623050191        0.0000000000000000     
           2   2404.7201623050191       -0.0000000000000000       -0.0000000000000000       -2404.7201623050191        0.0000000000000000     
           3   2404.7201623050191       -1173.9701152444507       -1632.2698516808030        1319.1544105233243        0.0000000000000000     
           4   2404.7201623050191        1173.9701152444507        1632.2698516808030       -1319.1544105233243        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4173718795807892E-005           OLP:   -1.4173718795807886E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1331095576336398E-006           OLP:   -5.1331095576347359E-006
 Error #15 in genps_fks.f  -1.0579824447631836E-006           4
ABS integral  = 0.8931E-06  +/-  0.1796E-08  (   0.201 %)
Integral      = 0.5154E-06  +/-  0.2043E-08  (   0.396 %)
Virtual       = -.2063E-09  +/-  0.1047E-08  ( 507.705 %)
Virtual ratio = -.1955E+00  +/-  0.4132E-03  (   0.211 %)
ABS virtual   = 0.4841E-06  +/-  0.8237E-09  (   0.170 %)
Born          = 0.1920E-05  +/-  0.2673E-08  (   0.139 %)
V  2          = -.2063E-09  +/-  0.1047E-08  ( 507.705 %)
B  2          = 0.1920E-05  +/-  0.2673E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8931E-06  +/-  0.1796E-08  (   0.201 %)
accumulated results Integral      = 0.5154E-06  +/-  0.2043E-08  (   0.396 %)
accumulated results Virtual       = -.2063E-09  +/-  0.1047E-08  ( 507.705 %)
accumulated results Virtual ratio = -.1955E+00  +/-  0.4132E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8237E-09  (   0.170 %)
accumulated results Born          = 0.1920E-05  +/-  0.2673E-08  (   0.139 %)
accumulated results V  2          = -.2063E-09  +/-  0.1047E-08  ( 507.705 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2673E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202862    23146  0.3262E-06  0.1847E-06  0.1000E+01
channel    2 :     1 T   208997    24358  0.3313E-06  0.2007E-06  0.9773E+00
channel    3 :     2 T    72256     8697  0.1158E-06  0.6232E-07  0.9882E+00
channel    4 :     2 T    75759     9333  0.1198E-06  0.6761E-07  0.9045E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9312943013481408E-007  +/-   1.7955434686497767E-009
 Final result:   5.1537100944898701E-007  +/-   2.0431161864881043E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408574
   Stability unknown:                                          0
   Stable PS point:                                       408574
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408574
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408574
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.57692695    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.49401617    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.79446697    
 Time spent in Integrated_CT :    10.0303955    
 Time spent in Virtuals :    610.896667    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.29579544    
 Time spent in N1body_prefactor :   0.852313161    
 Time spent in Adding_alphas_pdf :    10.8671398    
 Time spent in Reweight_scale :    46.4687347    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.2499352    
 Time spent in Applying_cuts :    5.94923401    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.9567413    
 Time spent in Other_tasks :    26.8856812    
 Time spent in Total :    800.317993    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_72, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42922
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          72
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 227304
  with seed                   48
 Ranmar initialization seeds       30233       26160
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.310832D+04 0.310832D+04  1.00
 muF1, muF1_reference: 0.310832D+04 0.310832D+04  1.00
 muF2, muF2_reference: 0.310832D+04 0.310832D+04  1.00
 QES,  QES_reference:  0.310832D+04 0.310832D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7235466381535375E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4096854820034155E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4180263247422619E-005           OLP:   -1.4180263247422582E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1215722133515078E-006           OLP:   -5.1215722133515163E-006
  FINITE:
           OLP:   -9.4895698963952868E-004
           BORN:    4.0866936089966844E-003
  MOMENTA (Exyzm): 
           1   2402.9511605757375        0.0000000000000000        0.0000000000000000        2402.9511605757375        0.0000000000000000     
           2   2402.9511605757375       -0.0000000000000000       -0.0000000000000000       -2402.9511605757375        0.0000000000000000     
           3   2402.9511605757375       -1729.8362298621180       -1020.7247623623558        1319.0761378589980        0.0000000000000000     
           4   2402.9511605757375        1729.8362298621180        1020.7247623623558       -1319.0761378589980        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4180263247422619E-005           OLP:   -1.4180263247422582E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1215722133515086E-006           OLP:   -5.1215722133515163E-006
ABS integral  = 0.8918E-06  +/-  0.1815E-08  (   0.204 %)
Integral      = 0.5134E-06  +/-  0.2060E-08  (   0.401 %)
Virtual       = -.7464E-09  +/-  0.1046E-08  ( 140.070 %)
Virtual ratio = -.1953E+00  +/-  0.4131E-03  (   0.211 %)
ABS virtual   = 0.4835E-06  +/-  0.8219E-09  (   0.170 %)
Born          = 0.1918E-05  +/-  0.2667E-08  (   0.139 %)
V  2          = -.7464E-09  +/-  0.1046E-08  ( 140.070 %)
B  2          = 0.1918E-05  +/-  0.2667E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8918E-06  +/-  0.1815E-08  (   0.204 %)
accumulated results Integral      = 0.5134E-06  +/-  0.2060E-08  (   0.401 %)
accumulated results Virtual       = -.7464E-09  +/-  0.1046E-08  ( 140.070 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4131E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8219E-09  (   0.170 %)
accumulated results Born          = 0.1918E-05  +/-  0.2667E-08  (   0.139 %)
accumulated results V  2          = -.7464E-09  +/-  0.1046E-08  ( 140.070 %)
accumulated results B  2          = 0.1918E-05  +/-  0.2667E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203016    23146  0.3261E-06  0.1845E-06  0.9764E+00
channel    2 :     1 T   209043    24358  0.3311E-06  0.2002E-06  0.9506E+00
channel    3 :     2 T    72371     8697  0.1154E-06  0.6154E-07  0.1000E+01
channel    4 :     2 T    75440     9333  0.1192E-06  0.6719E-07  0.9224E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9178727090497600E-007  +/-   1.8152705525051157E-009
 Final result:   5.1340533461272797E-007  +/-   2.0603125101728957E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408803
   Stability unknown:                                          0
   Stable PS point:                                       408803
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408803
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408803
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.55821753    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.54357481    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.77106142    
 Time spent in Integrated_CT :    10.0656128    
 Time spent in Virtuals :    612.477905    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.18131447    
 Time spent in N1body_prefactor :   0.826260328    
 Time spent in Adding_alphas_pdf :    11.8626242    
 Time spent in Reweight_scale :    48.8029480    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6730766    
 Time spent in Applying_cuts :    6.14556265    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.0485001    
 Time spent in Other_tasks :    26.9427490    
 Time spent in Total :    804.899414    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_73, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42915
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          73
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 230461
  with seed                   48
 Ranmar initialization seeds       30233       29317
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440290D+04 0.440290D+04  1.00
 muF1, muF1_reference: 0.440290D+04 0.440290D+04  1.00
 muF2, muF2_reference: 0.440290D+04 0.440290D+04  1.00
 QES,  QES_reference:  0.440290D+04 0.440290D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4706885922986993E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4118499570752713E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4168051246816612E-005           OLP:   -1.4168051246816615E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1431597853986792E-006           OLP:   -5.1431597853991027E-006
  FINITE:
           OLP:   -9.4606684252255267E-004
           BORN:    4.0831741605944338E-003
  MOMENTA (Exyzm): 
           1   2395.4334707666558        0.0000000000000000        0.0000000000000000        2395.4334707666558        0.0000000000000000     
           2   2395.4334707666558       -0.0000000000000000       -0.0000000000000000       -2395.4334707666558        0.0000000000000000     
           3   2395.4334707666558       -1611.6400321566218       -1189.9581810662296        1313.2849831369197        0.0000000000000000     
           4   2395.4334707666558        1611.6400321566218        1189.9581810662296       -1313.2849831369197        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4168051246816612E-005           OLP:   -1.4168051246816615E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1431597853986792E-006           OLP:   -5.1431597853991027E-006
ABS integral  = 0.8980E-06  +/-  0.1835E-08  (   0.204 %)
Integral      = 0.5162E-06  +/-  0.2081E-08  (   0.403 %)
Virtual       = 0.1807E-08  +/-  0.1049E-08  (  58.055 %)
Virtual ratio = -.1948E+00  +/-  0.4128E-03  (   0.212 %)
ABS virtual   = 0.4850E-06  +/-  0.8248E-09  (   0.170 %)
Born          = 0.1923E-05  +/-  0.2679E-08  (   0.139 %)
V  2          = 0.1807E-08  +/-  0.1049E-08  (  58.055 %)
B  2          = 0.1923E-05  +/-  0.2679E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8980E-06  +/-  0.1835E-08  (   0.204 %)
accumulated results Integral      = 0.5162E-06  +/-  0.2081E-08  (   0.403 %)
accumulated results Virtual       = 0.1807E-08  +/-  0.1049E-08  (  58.055 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4128E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4850E-06  +/-  0.8248E-09  (   0.170 %)
accumulated results Born          = 0.1923E-05  +/-  0.2679E-08  (   0.139 %)
accumulated results V  2          = 0.1807E-08  +/-  0.1049E-08  (  58.055 %)
accumulated results B  2          = 0.1923E-05  +/-  0.2679E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203020    23146  0.3278E-06  0.1874E-06  0.1000E+01
channel    2 :     1 T   209037    24358  0.3324E-06  0.1979E-06  0.9855E+00
channel    3 :     2 T    72416     8697  0.1174E-06  0.6138E-07  0.8804E+00
channel    4 :     2 T    75402     9333  0.1204E-06  0.6946E-07  0.8879E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9801045102544606E-007  +/-   1.8351228811290471E-009
 Final result:   5.1615272393240323E-007  +/-   2.0813933984743864E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408855
   Stability unknown:                                          0
   Stable PS point:                                       408855
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408855
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408855
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.61245024    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.61762381    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.84134054    
 Time spent in Integrated_CT :    10.1859131    
 Time spent in Virtuals :    613.520996    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.26521778    
 Time spent in N1body_prefactor :   0.855416834    
 Time spent in Adding_alphas_pdf :    10.9416819    
 Time spent in Reweight_scale :    46.3182526    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.5942154    
 Time spent in Applying_cuts :    6.21000195    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.1637878    
 Time spent in Other_tasks :    27.1457520    
 Time spent in Total :    803.272705    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_74, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42919
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          74
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 233618
  with seed                   48
 Ranmar initialization seeds       30233        2393
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437066D+04 0.437066D+04  1.00
 muF1, muF1_reference: 0.437066D+04 0.437066D+04  1.00
 muF2, muF2_reference: 0.437066D+04 0.437066D+04  1.00
 QES,  QES_reference:  0.437066D+04 0.437066D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4758564236040159E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4083970633017873E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4203756895780009E-005           OLP:   -1.4203756895780019E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0799403891089667E-006           OLP:   -5.0799403891090514E-006
  FINITE:
           OLP:   -9.5220690892717673E-004
           BORN:    4.0934643819307915E-003
  MOMENTA (Exyzm): 
           1   2407.4394990825836        0.0000000000000000        0.0000000000000000        2407.4394990825836        0.0000000000000000     
           2   2407.4394990825836       -0.0000000000000000       -0.0000000000000000       -2407.4394990825836        0.0000000000000000     
           3   2407.4394990825836       -1968.2714262996139       -408.29714648253440        1324.7512877252482        0.0000000000000000     
           4   2407.4394990825836        1968.2714262996139        408.29714648253440       -1324.7512877252482        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4203756895780009E-005           OLP:   -1.4203756895780019E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0799403891089675E-006           OLP:   -5.0799403891090514E-006
 Error #15 in genps_fks.f  -1.2218952178955078E-006           3
ABS integral  = 0.8941E-06  +/-  0.1822E-08  (   0.204 %)
Integral      = 0.5129E-06  +/-  0.2068E-08  (   0.403 %)
Virtual       = 0.4964E-09  +/-  0.1049E-08  ( 211.293 %)
Virtual ratio = -.1952E+00  +/-  0.4129E-03  (   0.212 %)
ABS virtual   = 0.4843E-06  +/-  0.8252E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2678E-08  (   0.139 %)
V  2          = 0.4964E-09  +/-  0.1049E-08  ( 211.293 %)
B  2          = 0.1922E-05  +/-  0.2678E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8941E-06  +/-  0.1822E-08  (   0.204 %)
accumulated results Integral      = 0.5129E-06  +/-  0.2068E-08  (   0.403 %)
accumulated results Virtual       = 0.4964E-09  +/-  0.1049E-08  ( 211.293 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4129E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8252E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2678E-08  (   0.139 %)
accumulated results V  2          = 0.4964E-09  +/-  0.1049E-08  ( 211.293 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2678E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203105    23146  0.3258E-06  0.1858E-06  0.9943E+00
channel    2 :     1 T   209303    24358  0.3330E-06  0.1984E-06  0.9574E+00
channel    3 :     2 T    72048     8697  0.1156E-06  0.6179E-07  0.9797E+00
channel    4 :     2 T    75416     9333  0.1197E-06  0.6687E-07  0.9099E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9414123830666926E-007  +/-   1.8219239142242303E-009
 Final result:   5.1286860287053930E-007  +/-   2.0682311179074577E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408884
   Stability unknown:                                          0
   Stable PS point:                                       408884
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408884
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408884
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58819783    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.55772018    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.81416941    
 Time spent in Integrated_CT :    10.2271118    
 Time spent in Virtuals :    615.605713    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.23988247    
 Time spent in N1body_prefactor :   0.834750593    
 Time spent in Adding_alphas_pdf :    10.9188786    
 Time spent in Reweight_scale :    45.8005600    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6417484    
 Time spent in Applying_cuts :    6.15718317    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.1499405    
 Time spent in Other_tasks :    27.0147095    
 Time spent in Total :    804.550537    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_75, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42939
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          75
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 236775
  with seed                   48
 Ranmar initialization seeds       30233        5550
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424917D+04 0.424917D+04  1.00
 muF1, muF1_reference: 0.424917D+04 0.424917D+04  1.00
 muF2, muF2_reference: 0.424917D+04 0.424917D+04  1.00
 QES,  QES_reference:  0.424917D+04 0.424917D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4957393419912088E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4068793347969605E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4280484761599157E-005           OLP:   -1.4280484761599176E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9424844454615507E-006           OLP:   -4.9424844454616354E-006
  FINITE:
           OLP:   -9.6066919923888606E-004
           BORN:    4.1155770376272265E-003
  MOMENTA (Exyzm): 
           1   2412.7395138408383        0.0000000000000000        0.0000000000000000        2412.7395138408383        0.0000000000000000     
           2   2412.7395138408383       -0.0000000000000000       -0.0000000000000000       -2412.7395138408383        0.0000000000000000     
           3   2412.7395138408383       -2006.8955852214578       -55.036768516979933        1338.1528409635257        0.0000000000000000     
           4   2412.7395138408383        2006.8955852214578        55.036768516979933       -1338.1528409635257        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4280484761599157E-005           OLP:   -1.4280484761599176E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9424844454615507E-006           OLP:   -4.9424844454616354E-006
ABS integral  = 0.8921E-06  +/-  0.1769E-08  (   0.198 %)
Integral      = 0.5155E-06  +/-  0.2019E-08  (   0.392 %)
Virtual       = 0.6964E-10  +/-  0.1043E-08  ( ******* %)
Virtual ratio = -.1952E+00  +/-  0.4133E-03  (   0.212 %)
ABS virtual   = 0.4841E-06  +/-  0.8178E-09  (   0.169 %)
Born          = 0.1919E-05  +/-  0.2673E-08  (   0.139 %)
V  2          = 0.6964E-10  +/-  0.1043E-08  ( ******* %)
B  2          = 0.1919E-05  +/-  0.2673E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8921E-06  +/-  0.1769E-08  (   0.198 %)
accumulated results Integral      = 0.5155E-06  +/-  0.2019E-08  (   0.392 %)
accumulated results Virtual       = 0.6964E-10  +/-  0.1043E-08  ( ******* %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4133E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8178E-09  (   0.169 %)
accumulated results Born          = 0.1919E-05  +/-  0.2673E-08  (   0.139 %)
accumulated results V  2          = 0.6964E-10  +/-  0.1043E-08  ( ******* %)
accumulated results B  2          = 0.1919E-05  +/-  0.2673E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202363    23146  0.3237E-06  0.1851E-06  0.1000E+01
channel    2 :     1 T   210238    24358  0.3337E-06  0.1995E-06  0.9518E+00
channel    3 :     2 T    72029     8697  0.1162E-06  0.6208E-07  0.1000E+01
channel    4 :     2 T    75241     9333  0.1184E-06  0.6879E-07  0.9261E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9209053451961646E-007  +/-   1.7687854298180109E-009
 Final result:   5.1548784485245590E-007  +/-   2.0187673301665619E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408678
   Stability unknown:                                          0
   Stable PS point:                                       408678
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408678
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408678
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.63773823    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.55060720    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.82748127    
 Time spent in Integrated_CT :    10.1819458    
 Time spent in Virtuals :    613.259827    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.26924133    
 Time spent in N1body_prefactor :   0.837139249    
 Time spent in Adding_alphas_pdf :    10.9074745    
 Time spent in Reweight_scale :    45.6703110    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.5422325    
 Time spent in Applying_cuts :    6.12463093    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.3156090    
 Time spent in Other_tasks :    27.0245972    
 Time spent in Total :    802.148804    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_76, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42905
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          76
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 239932
  with seed                   48
 Ranmar initialization seeds       30233        8707
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438658D+04 0.438658D+04  1.00
 muF1, muF1_reference: 0.438658D+04 0.438658D+04  1.00
 muF2, muF2_reference: 0.438658D+04 0.438658D+04  1.00
 QES,  QES_reference:  0.438658D+04 0.438658D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4732992296834500E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4076954702667175E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4307773465410518E-005           OLP:   -1.4307773465410501E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8930524717756211E-006           OLP:   -4.8930524717764512E-006
  FINITE:
           OLP:   -9.6257838605169708E-004
           BORN:    4.1234415299513704E-003
  MOMENTA (Exyzm): 
           1   2409.8877812311043        0.0000000000000000        0.0000000000000000        2409.8877812311043        0.0000000000000000     
           2   2409.8877812311043       -0.0000000000000000       -0.0000000000000000       -2409.8877812311043        0.0000000000000000     
           3   2409.8877812311043       -1599.6460552151937       -1205.1246518564169        1340.2858611689503        0.0000000000000000     
           4   2409.8877812311043        1599.6460552151937        1205.1246518564169       -1340.2858611689503        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4307773465410518E-005           OLP:   -1.4307773465410501E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8930524717756245E-006           OLP:   -4.8930524717764512E-006
ABS integral  = 0.8903E-06  +/-  0.1813E-08  (   0.204 %)
Integral      = 0.5143E-06  +/-  0.2056E-08  (   0.400 %)
Virtual       = -.7591E-09  +/-  0.1036E-08  ( 136.535 %)
Virtual ratio = -.1952E+00  +/-  0.4129E-03  (   0.212 %)
ABS virtual   = 0.4820E-06  +/-  0.8118E-09  (   0.168 %)
Born          = 0.1915E-05  +/-  0.2651E-08  (   0.138 %)
V  2          = -.7591E-09  +/-  0.1036E-08  ( 136.535 %)
B  2          = 0.1915E-05  +/-  0.2651E-08  (   0.138 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8903E-06  +/-  0.1813E-08  (   0.204 %)
accumulated results Integral      = 0.5143E-06  +/-  0.2056E-08  (   0.400 %)
accumulated results Virtual       = -.7591E-09  +/-  0.1036E-08  ( 136.535 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4129E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4820E-06  +/-  0.8118E-09  (   0.168 %)
accumulated results Born          = 0.1915E-05  +/-  0.2651E-08  (   0.138 %)
accumulated results V  2          = -.7591E-09  +/-  0.1036E-08  ( 136.535 %)
accumulated results B  2          = 0.1915E-05  +/-  0.2651E-08  (   0.138 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203102    23146  0.3242E-06  0.1871E-06  0.1000E+01
channel    2 :     1 T   209345    24358  0.3310E-06  0.1978E-06  0.9765E+00
channel    3 :     2 T    72227     8697  0.1175E-06  0.6212E-07  0.8287E+00
channel    4 :     2 T    75199     9333  0.1176E-06  0.6734E-07  0.9132E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9028638301496064E-007  +/-   1.8125498234202148E-009
 Final result:   5.1434011085148359E-007  +/-   2.0563375318076559E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408555
   Stability unknown:                                          0
   Stable PS point:                                       408555
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408555
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408555
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.55942070    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.57767963    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.78964281    
 Time spent in Integrated_CT :    10.1069946    
 Time spent in Virtuals :    614.092896    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.19981766    
 Time spent in N1body_prefactor :   0.827317476    
 Time spent in Adding_alphas_pdf :    10.9538593    
 Time spent in Reweight_scale :    45.7199287    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.3128147    
 Time spent in Applying_cuts :    6.08834314    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.3500061    
 Time spent in Other_tasks :    27.2337646    
 Time spent in Total :    802.812500    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_77, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42934
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          77
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 243089
  with seed                   48
 Ranmar initialization seeds       30233       11864
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443069D+04 0.443069D+04  1.00
 muF1, muF1_reference: 0.443069D+04 0.443069D+04  1.00
 muF2, muF2_reference: 0.443069D+04 0.443069D+04  1.00
 QES,  QES_reference:  0.443069D+04 0.443069D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4662711657810132E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4075096923213984E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4182988734008903E-005           OLP:   -1.4182988734008896E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1167067063086224E-006           OLP:   -5.1167067063095440E-006
  FINITE:
           OLP:   -9.5096980477724102E-004
           BORN:    4.0874790830333248E-003
  MOMENTA (Exyzm): 
           1   2410.5365706755888        0.0000000000000000        0.0000000000000000        2410.5365706755888        0.0000000000000000     
           2   2410.5365706755888       -0.0000000000000000       -0.0000000000000000       -2410.5365706755888        0.0000000000000000     
           3   2410.5365706755888       -1216.0592386263590       -1606.2149284585196        1323.6162927045364        0.0000000000000000     
           4   2410.5365706755888        1216.0592386263590        1606.2149284585196       -1323.6162927045364        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4182988734008903E-005           OLP:   -1.4182988734008896E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1167067063086216E-006           OLP:   -5.1167067063095440E-006
ABS integral  = 0.8955E-06  +/-  0.1785E-08  (   0.199 %)
Integral      = 0.5162E-06  +/-  0.2036E-08  (   0.394 %)
Virtual       = -.1461E-08  +/-  0.1050E-08  (  71.921 %)
Virtual ratio = -.1957E+00  +/-  0.4124E-03  (   0.211 %)
ABS virtual   = 0.4856E-06  +/-  0.8259E-09  (   0.170 %)
Born          = 0.1926E-05  +/-  0.2679E-08  (   0.139 %)
V  2          = -.1461E-08  +/-  0.1050E-08  (  71.921 %)
B  2          = 0.1926E-05  +/-  0.2679E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8955E-06  +/-  0.1785E-08  (   0.199 %)
accumulated results Integral      = 0.5162E-06  +/-  0.2036E-08  (   0.394 %)
accumulated results Virtual       = -.1461E-08  +/-  0.1050E-08  (  71.921 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4124E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4856E-06  +/-  0.8259E-09  (   0.170 %)
accumulated results Born          = 0.1926E-05  +/-  0.2679E-08  (   0.139 %)
accumulated results V  2          = -.1461E-08  +/-  0.1050E-08  (  71.921 %)
accumulated results B  2          = 0.1926E-05  +/-  0.2679E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202898    23146  0.3270E-06  0.1861E-06  0.9837E+00
channel    2 :     1 T   208960    24358  0.3313E-06  0.1992E-06  0.1000E+01
channel    3 :     2 T    72875     8697  0.1171E-06  0.6409E-07  0.1000E+01
channel    4 :     2 T    75141     9333  0.1200E-06  0.6683E-07  0.9113E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9551339496322991E-007  +/-   1.7854358408717041E-009
 Final result:   5.1621733547487115E-007  +/-   2.0357272139965775E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409586
   Stability unknown:                                          0
   Stable PS point:                                       409586
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409586
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409586
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.56215262    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.59371090    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.84674311    
 Time spent in Integrated_CT :    10.0241699    
 Time spent in Virtuals :    612.967590    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.14273834    
 Time spent in N1body_prefactor :   0.824101567    
 Time spent in Adding_alphas_pdf :    10.8860569    
 Time spent in Reweight_scale :    45.7539864    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.2989635    
 Time spent in Applying_cuts :    6.01174450    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.2415009    
 Time spent in Other_tasks :    27.0102539    
 Time spent in Total :    801.163696    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_78, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42933
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          78
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 246246
  with seed                   48
 Ranmar initialization seeds       30233       15021
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.396206D+04 0.396206D+04  1.00
 muF1, muF1_reference: 0.396206D+04 0.396206D+04  1.00
 muF2, muF2_reference: 0.396206D+04 0.396206D+04  1.00
 QES,  QES_reference:  0.396206D+04 0.396206D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5455315945543541E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4091133547035101E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4162293320227952E-005           OLP:   -1.4162293320227947E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1532298321182550E-006           OLP:   -5.1532298321186192E-006
  FINITE:
           OLP:   -9.4772960793398529E-004
           BORN:    4.0815147498077390E-003
  MOMENTA (Exyzm): 
           1   2404.9429897426926        0.0000000000000000        0.0000000000000000        2404.9429897426926        0.0000000000000000     
           2   2404.9429897426926       -0.0000000000000000       -0.0000000000000000       -2404.9429897426926        0.0000000000000000     
           3   2404.9429897426926       -1054.1768618728572       -1713.5012271903395        1317.7160059062865        0.0000000000000000     
           4   2404.9429897426926        1054.1768618728572        1713.5012271903395       -1317.7160059062865        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4162293320227952E-005           OLP:   -1.4162293320227947E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1532298321182550E-006           OLP:   -5.1532298321186192E-006
ABS integral  = 0.8934E-06  +/-  0.1881E-08  (   0.211 %)
Integral      = 0.5162E-06  +/-  0.2118E-08  (   0.410 %)
Virtual       = 0.6262E-10  +/-  0.1041E-08  ( ******* %)
Virtual ratio = -.1952E+00  +/-  0.4130E-03  (   0.212 %)
ABS virtual   = 0.4830E-06  +/-  0.8173E-09  (   0.169 %)
Born          = 0.1917E-05  +/-  0.2667E-08  (   0.139 %)
V  2          = 0.6262E-10  +/-  0.1041E-08  ( ******* %)
B  2          = 0.1917E-05  +/-  0.2667E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8934E-06  +/-  0.1881E-08  (   0.211 %)
accumulated results Integral      = 0.5162E-06  +/-  0.2118E-08  (   0.410 %)
accumulated results Virtual       = 0.6262E-10  +/-  0.1041E-08  ( ******* %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4130E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8173E-09  (   0.169 %)
accumulated results Born          = 0.1917E-05  +/-  0.2667E-08  (   0.139 %)
accumulated results V  2          = 0.6262E-10  +/-  0.1041E-08  ( ******* %)
accumulated results B  2          = 0.1917E-05  +/-  0.2667E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203097    23146  0.3250E-06  0.1855E-06  0.1000E+01
channel    2 :     1 T   209326    24358  0.3316E-06  0.2008E-06  0.9838E+00
channel    3 :     2 T    72065     8697  0.1160E-06  0.6302E-07  0.1000E+01
channel    4 :     2 T    75373     9333  0.1208E-06  0.6688E-07  0.6881E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9338926060206170E-007  +/-   1.8805982018314446E-009
 Final result:   5.1619862275405288E-007  +/-   2.1180890487836489E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408456
   Stability unknown:                                          0
   Stable PS point:                                       408456
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408456
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408456
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58077550    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.64144754    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.87645245    
 Time spent in Integrated_CT :    10.1427002    
 Time spent in Virtuals :    612.184937    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.24703789    
 Time spent in N1body_prefactor :   0.862401664    
 Time spent in Adding_alphas_pdf :    10.9909210    
 Time spent in Reweight_scale :    46.0889854    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.4984283    
 Time spent in Applying_cuts :    6.17299747    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.0397453    
 Time spent in Other_tasks :    27.5799561    
 Time spent in Total :    801.906738    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_79, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42917
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          79
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 249403
  with seed                   48
 Ranmar initialization seeds       30233       18178
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432720D+04 0.432720D+04  1.00
 muF1, muF1_reference: 0.432720D+04 0.432720D+04  1.00
 muF2, muF2_reference: 0.432720D+04 0.432720D+04  1.00
 QES,  QES_reference:  0.432720D+04 0.432720D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4828934091673904E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4081089146378787E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4320891969962482E-005           OLP:   -1.4320891969962484E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8691812028026036E-006           OLP:   -4.8691812027979704E-006
  FINITE:
           OLP:   -9.6347853351440630E-004
           BORN:    4.1272222290665191E-003
  MOMENTA (Exyzm): 
           1   2408.4446642517410        0.0000000000000000        0.0000000000000000        2408.4446642517410        0.0000000000000000     
           2   2408.4446642517410       -0.0000000000000000       -0.0000000000000000       -2408.4446642517410        0.0000000000000000     
           3   2408.4446642517410       -1336.0389156138958       -1488.8284430099479        1341.2664105286842        0.0000000000000000     
           4   2408.4446642517410        1336.0389156138958        1488.8284430099479       -1341.2664105286842        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4320891969962482E-005           OLP:   -1.4320891969962484E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8691812028026070E-006           OLP:   -4.8691812027979704E-006
ABS integral  = 0.8923E-06  +/-  0.1848E-08  (   0.207 %)
Integral      = 0.5153E-06  +/-  0.2089E-08  (   0.405 %)
Virtual       = -.2747E-09  +/-  0.1042E-08  ( 379.451 %)
Virtual ratio = -.1954E+00  +/-  0.4134E-03  (   0.212 %)
ABS virtual   = 0.4834E-06  +/-  0.8177E-09  (   0.169 %)
Born          = 0.1918E-05  +/-  0.2662E-08  (   0.139 %)
V  2          = -.2747E-09  +/-  0.1042E-08  ( 379.451 %)
B  2          = 0.1918E-05  +/-  0.2662E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8923E-06  +/-  0.1848E-08  (   0.207 %)
accumulated results Integral      = 0.5153E-06  +/-  0.2089E-08  (   0.405 %)
accumulated results Virtual       = -.2747E-09  +/-  0.1042E-08  ( 379.451 %)
accumulated results Virtual ratio = -.1954E+00  +/-  0.4134E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8177E-09  (   0.169 %)
accumulated results Born          = 0.1918E-05  +/-  0.2662E-08  (   0.139 %)
accumulated results V  2          = -.2747E-09  +/-  0.1042E-08  ( 379.451 %)
accumulated results B  2          = 0.1918E-05  +/-  0.2662E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202776    23146  0.3235E-06  0.1838E-06  0.1000E+01
channel    2 :     1 T   208897    24358  0.3323E-06  0.1993E-06  0.9065E+00
channel    3 :     2 T    72607     8697  0.1160E-06  0.6321E-07  0.9914E+00
channel    4 :     2 T    75593     9333  0.1204E-06  0.6911E-07  0.9048E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9225386853619808E-007  +/-   1.8480095086592451E-009
 Final result:   5.1534391997126371E-007  +/-   2.0887183460127435E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408695
   Stability unknown:                                          0
   Stable PS point:                                       408695
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408695
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408695
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.63126040    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.58491230    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.83217573    
 Time spent in Integrated_CT :    10.1925049    
 Time spent in Virtuals :    614.896118    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.25297928    
 Time spent in N1body_prefactor :   0.865008414    
 Time spent in Adding_alphas_pdf :    11.0870113    
 Time spent in Reweight_scale :    45.9938354    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.7162876    
 Time spent in Applying_cuts :    6.14914322    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.2022095    
 Time spent in Other_tasks :    27.3999023    
 Time spent in Total :    804.803406    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_80, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42903
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          80
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 252560
  with seed                   48
 Ranmar initialization seeds       30233       21335
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430253D+04 0.430253D+04  1.00
 muF1, muF1_reference: 0.430253D+04 0.430253D+04  1.00
 muF2, muF2_reference: 0.430253D+04 0.430253D+04  1.00
 QES,  QES_reference:  0.430253D+04 0.430253D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4869245567338039E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4076198587100975E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4246512753735532E-005           OLP:   -1.4246512753735517E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0036404434795326E-006           OLP:   -5.0036404434795139E-006
  FINITE:
           OLP:   -9.5686320803337077E-004
           BORN:    4.1057864445332446E-003
  MOMENTA (Exyzm): 
           1   2410.1518131293724        0.0000000000000000        0.0000000000000000        2410.1518131293724        0.0000000000000000     
           2   2410.1518131293724       -0.0000000000000000       -0.0000000000000000       -2410.1518131293724        0.0000000000000000     
           3   2410.1518131293724       -2007.8900795226330       -52.542673806036667        1332.0842534594833        0.0000000000000000     
           4   2410.1518131293724        2007.8900795226330        52.542673806036667       -1332.0842534594833        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4246512753735532E-005           OLP:   -1.4246512753735517E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0036404434795292E-006           OLP:   -5.0036404434795139E-006
ABS integral  = 0.8918E-06  +/-  0.1747E-08  (   0.196 %)
Integral      = 0.5154E-06  +/-  0.2000E-08  (   0.388 %)
Virtual       = -.5204E-09  +/-  0.1049E-08  ( 201.585 %)
Virtual ratio = -.1961E+00  +/-  0.4126E-03  (   0.210 %)
ABS virtual   = 0.4842E-06  +/-  0.8257E-09  (   0.171 %)
Born          = 0.1922E-05  +/-  0.2679E-08  (   0.139 %)
V  2          = -.5204E-09  +/-  0.1049E-08  ( 201.585 %)
B  2          = 0.1922E-05  +/-  0.2679E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8918E-06  +/-  0.1747E-08  (   0.196 %)
accumulated results Integral      = 0.5154E-06  +/-  0.2000E-08  (   0.388 %)
accumulated results Virtual       = -.5204E-09  +/-  0.1049E-08  ( 201.585 %)
accumulated results Virtual ratio = -.1961E+00  +/-  0.4126E-03  (   0.210 %)
accumulated results ABS virtual   = 0.4842E-06  +/-  0.8257E-09  (   0.171 %)
accumulated results Born          = 0.1922E-05  +/-  0.2679E-08  (   0.139 %)
accumulated results V  2          = -.5204E-09  +/-  0.1049E-08  ( 201.585 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2679E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202692    23146  0.3252E-06  0.1867E-06  0.1000E+01
channel    2 :     1 T   209096    24358  0.3303E-06  0.1973E-06  0.9925E+00
channel    3 :     2 T    72198     8697  0.1161E-06  0.6288E-07  0.1000E+01
channel    4 :     2 T    75888     9333  0.1202E-06  0.6852E-07  0.9301E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9177373429932439E-007  +/-   1.7474692379584784E-009
 Final result:   5.1537654940200854E-007  +/-   1.9999159752513548E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408735
   Stability unknown:                                          0
   Stable PS point:                                       408735
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408735
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408735
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.59193563    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.63762856    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.86861420    
 Time spent in Integrated_CT :    10.1904297    
 Time spent in Virtuals :    612.848022    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.23638535    
 Time spent in N1body_prefactor :   0.850362241    
 Time spent in Adding_alphas_pdf :    11.9528475    
 Time spent in Reweight_scale :    49.0966301    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    18.0646553    
 Time spent in Applying_cuts :    6.24736404    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.3732796    
 Time spent in Other_tasks :    27.6898804    
 Time spent in Total :    807.648010    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_81, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42911
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          81
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 255717
  with seed                   48
 Ranmar initialization seeds       30233       24492
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.367416D+04 0.367416D+04  1.00
 muF1, muF1_reference: 0.367416D+04 0.367416D+04  1.00
 muF2, muF2_reference: 0.367416D+04 0.367416D+04  1.00
 QES,  QES_reference:  0.367416D+04 0.367416D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5999650427241605E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4065630778151287E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4208384990917723E-005           OLP:   -1.4208384990917718E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0716761078831122E-006           OLP:   -5.0716761078830207E-006
  FINITE:
           OLP:   -9.5412747152451966E-004
           BORN:    4.0947981799351807E-003
  MOMENTA (Exyzm): 
           1   2413.8456592769571        0.0000000000000000        0.0000000000000000        2413.8456592769571        0.0000000000000000     
           2   2413.8456592769571       -0.0000000000000000       -0.0000000000000000       -2413.8456592769571        0.0000000000000000     
           3   2413.8456592769571       -1798.0361448338895       -909.78452199037440        1328.9127180623409        0.0000000000000000     
           4   2413.8456592769571        1798.0361448338895        909.78452199037440       -1328.9127180623409        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4208384990917723E-005           OLP:   -1.4208384990917718E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0716761078831122E-006           OLP:   -5.0716761078830207E-006
ABS integral  = 0.8926E-06  +/-  0.1878E-08  (   0.210 %)
Integral      = 0.5111E-06  +/-  0.2118E-08  (   0.414 %)
Virtual       = -.1259E-08  +/-  0.1044E-08  (  82.882 %)
Virtual ratio = -.1957E+00  +/-  0.4131E-03  (   0.211 %)
ABS virtual   = 0.4844E-06  +/-  0.8187E-09  (   0.169 %)
Born          = 0.1922E-05  +/-  0.2667E-08  (   0.139 %)
V  2          = -.1259E-08  +/-  0.1044E-08  (  82.882 %)
B  2          = 0.1922E-05  +/-  0.2667E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8926E-06  +/-  0.1878E-08  (   0.210 %)
accumulated results Integral      = 0.5111E-06  +/-  0.2118E-08  (   0.414 %)
accumulated results Virtual       = -.1259E-08  +/-  0.1044E-08  (  82.882 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4131E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8187E-09  (   0.169 %)
accumulated results Born          = 0.1922E-05  +/-  0.2667E-08  (   0.139 %)
accumulated results V  2          = -.1259E-08  +/-  0.1044E-08  (  82.882 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2667E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203512    23146  0.3283E-06  0.1846E-06  0.9993E+00
channel    2 :     1 T   208438    24358  0.3302E-06  0.1983E-06  0.8851E+00
channel    3 :     2 T    72681     8697  0.1164E-06  0.6292E-07  0.1000E+01
channel    4 :     2 T    75237     9333  0.1178E-06  0.6526E-07  0.8891E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9256681684464087E-007  +/-   1.8781795827336040E-009
 Final result:   5.1110684597567387E-007  +/-   2.1175291004952007E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408910
   Stability unknown:                                          0
   Stable PS point:                                       408910
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408910
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408910
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.55071843    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.57311726    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.81780386    
 Time spent in Integrated_CT :    10.0886230    
 Time spent in Virtuals :    610.586731    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.19918442    
 Time spent in N1body_prefactor :   0.847898245    
 Time spent in Adding_alphas_pdf :    11.8576460    
 Time spent in Reweight_scale :    49.5205917    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6218147    
 Time spent in Applying_cuts :    6.09497309    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.0675087    
 Time spent in Other_tasks :    27.3067017    
 Time spent in Total :    804.133301    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_82, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42906
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          82
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 258874
  with seed                   48
 Ranmar initialization seeds       30233       27649
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430539D+04 0.430539D+04  1.00
 muF1, muF1_reference: 0.430539D+04 0.430539D+04  1.00
 muF2, muF2_reference: 0.430539D+04 0.430539D+04  1.00
 QES,  QES_reference:  0.430539D+04 0.430539D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4864547573870288E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4069181731568082E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4215642572486553E-005           OLP:   -1.4215642572486541E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0587744005940327E-006           OLP:   -5.0587744005938142E-006
  FINITE:
           OLP:   -9.5452358735657514E-004
           BORN:    4.0968897851259021E-003
  MOMENTA (Exyzm): 
           1   2412.6037139184523        0.0000000000000000        0.0000000000000000        2412.6037139184523        0.0000000000000000     
           2   2412.6037139184523       -0.0000000000000000       -0.0000000000000000       -2412.6037139184523        0.0000000000000000     
           3   2412.6037139184523       -1696.7409917427988       -1083.9269920475801        1329.2211867343442        0.0000000000000000     
           4   2412.6037139184523        1696.7409917427988        1083.9269920475801       -1329.2211867343442        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4215642572486553E-005           OLP:   -1.4215642572486541E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0587744005940361E-006           OLP:   -5.0587744005938142E-006
ABS integral  = 0.8942E-06  +/-  0.1774E-08  (   0.198 %)
Integral      = 0.5135E-06  +/-  0.2026E-08  (   0.395 %)
Virtual       = -.4411E-09  +/-  0.1044E-08  ( 236.612 %)
Virtual ratio = -.1952E+00  +/-  0.4128E-03  (   0.211 %)
ABS virtual   = 0.4833E-06  +/-  0.8198E-09  (   0.170 %)
Born          = 0.1919E-05  +/-  0.2672E-08  (   0.139 %)
V  2          = -.4411E-09  +/-  0.1044E-08  ( 236.612 %)
B  2          = 0.1919E-05  +/-  0.2672E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8942E-06  +/-  0.1774E-08  (   0.198 %)
accumulated results Integral      = 0.5135E-06  +/-  0.2026E-08  (   0.395 %)
accumulated results Virtual       = -.4411E-09  +/-  0.1044E-08  ( 236.612 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4128E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8198E-09  (   0.170 %)
accumulated results Born          = 0.1919E-05  +/-  0.2672E-08  (   0.139 %)
accumulated results V  2          = -.4411E-09  +/-  0.1044E-08  ( 236.612 %)
accumulated results B  2          = 0.1919E-05  +/-  0.2672E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203066    23146  0.3248E-06  0.1852E-06  0.1000E+01
channel    2 :     1 T   208663    24358  0.3321E-06  0.1985E-06  0.9836E+00
channel    3 :     2 T    72611     8697  0.1178E-06  0.6220E-07  0.9746E+00
channel    4 :     2 T    75529     9333  0.1194E-06  0.6760E-07  0.8870E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9416299603356662E-007  +/-   1.7739892963739371E-009
 Final result:   5.1346583344642742E-007  +/-   2.0258790462114100E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408471
   Stability unknown:                                          0
   Stable PS point:                                       408471
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408471
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408471
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.60719538    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.56757879    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.80085230    
 Time spent in Integrated_CT :    10.0636597    
 Time spent in Virtuals :    613.890259    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.20126438    
 Time spent in N1body_prefactor :   0.855160475    
 Time spent in Adding_alphas_pdf :    10.8746691    
 Time spent in Reweight_scale :    45.4308853    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.4885044    
 Time spent in Applying_cuts :    6.06317139    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.0956764    
 Time spent in Other_tasks :    27.1446533    
 Time spent in Total :    802.083679    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_83, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42902
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          83
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 262031
  with seed                   48
 Ranmar initialization seeds       30233         725
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.409539D+04 0.409539D+04  1.00
 muF1, muF1_reference: 0.409539D+04 0.409539D+04  1.00
 muF2, muF2_reference: 0.409539D+04 0.409539D+04  1.00
 QES,  QES_reference:  0.409539D+04 0.409539D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5218947365383634E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4080811174643019E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4254710363562433E-005           OLP:   -1.4254710363562441E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9889412405440259E-006           OLP:   -4.9889412405439699E-006
  FINITE:
           OLP:   -9.5726095926270760E-004
           BORN:    4.1081489620058828E-003
  MOMENTA (Exyzm): 
           1   2408.5416572022100        0.0000000000000000        0.0000000000000000        2408.5416572022100        0.0000000000000000     
           2   2408.5416572022100       -0.0000000000000000       -0.0000000000000000       -2408.5416572022100        0.0000000000000000     
           3   2408.5416572022100       -1615.6048512275875       -1189.8909797658036        1332.3112757310994        0.0000000000000000     
           4   2408.5416572022100        1615.6048512275875        1189.8909797658036       -1332.3112757310994        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4254710363562433E-005           OLP:   -1.4254710363562441E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9889412405440259E-006           OLP:   -4.9889412405439699E-006
 Error #15 in genps_fks.f  -1.1622905731201172E-006           4
ABS integral  = 0.8928E-06  +/-  0.1751E-08  (   0.196 %)
Integral      = 0.5160E-06  +/-  0.2004E-08  (   0.388 %)
Virtual       = 0.7189E-09  +/-  0.1044E-08  ( 145.295 %)
Virtual ratio = -.1952E+00  +/-  0.4128E-03  (   0.211 %)
ABS virtual   = 0.4845E-06  +/-  0.8195E-09  (   0.169 %)
Born          = 0.1923E-05  +/-  0.2671E-08  (   0.139 %)
V  2          = 0.7189E-09  +/-  0.1044E-08  ( 145.295 %)
B  2          = 0.1923E-05  +/-  0.2671E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8928E-06  +/-  0.1751E-08  (   0.196 %)
accumulated results Integral      = 0.5160E-06  +/-  0.2004E-08  (   0.388 %)
accumulated results Virtual       = 0.7189E-09  +/-  0.1044E-08  ( 145.295 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4128E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4845E-06  +/-  0.8195E-09  (   0.169 %)
accumulated results Born          = 0.1923E-05  +/-  0.2671E-08  (   0.139 %)
accumulated results V  2          = 0.7189E-09  +/-  0.1044E-08  ( 145.295 %)
accumulated results B  2          = 0.1923E-05  +/-  0.2671E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202557    23146  0.3272E-06  0.1865E-06  0.1000E+01
channel    2 :     1 T   209294    24358  0.3313E-06  0.2000E-06  0.9940E+00
channel    3 :     2 T    72565     8697  0.1159E-06  0.6211E-07  0.1000E+01
channel    4 :     2 T    75453     9333  0.1184E-06  0.6734E-07  0.9148E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9280740168470661E-007  +/-   1.7510900390062370E-009
 Final result:   5.1599642071113059E-007  +/-   2.0036178250071314E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409171
   Stability unknown:                                          0
   Stable PS point:                                       409171
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409171
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409171
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.62061298    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.64399576    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.90470123    
 Time spent in Integrated_CT :    10.2236328    
 Time spent in Virtuals :    613.724304    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.20789433    
 Time spent in N1body_prefactor :   0.844646752    
 Time spent in Adding_alphas_pdf :    11.1161919    
 Time spent in Reweight_scale :    46.2657166    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.5599098    
 Time spent in Applying_cuts :    6.22221375    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.2706108    
 Time spent in Other_tasks :    27.6383667    
 Time spent in Total :    804.242920    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_84, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42916
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          84
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 265188
  with seed                   48
 Ranmar initialization seeds       30233        3882
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440854D+04 0.440854D+04  1.00
 muF1, muF1_reference: 0.440854D+04 0.440854D+04  1.00
 muF2, muF2_reference: 0.440854D+04 0.440854D+04  1.00
 QES,  QES_reference:  0.440854D+04 0.440854D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4697893572530233E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4061327963459642E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4337525877852600E-005           OLP:   -1.4337525877852608E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8387517653487535E-006           OLP:   -4.8387517653487010E-006
  FINITE:
           OLP:   -9.6666616262757366E-004
           BORN:    4.1320160529808624E-003
  MOMENTA (Exyzm): 
           1   2415.3515912769567        0.0000000000000000        0.0000000000000000        2415.3515912769567        0.0000000000000000     
           2   2415.3515912769567       -0.0000000000000000       -0.0000000000000000       -2415.3515912769567        0.0000000000000000     
           3   2415.3515912769567       -1881.6557592351005       -691.27032966504078        1347.3827386998432        0.0000000000000000     
           4   2415.3515912769567        1881.6557592351005        691.27032966504078       -1347.3827386998432        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4337525877852600E-005           OLP:   -1.4337525877852608E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8387517653487544E-006           OLP:   -4.8387517653487010E-006
ABS integral  = 0.9049E-06  +/-  0.9654E-08  (   1.067 %)
Integral      = 0.5252E-06  +/-  0.9704E-08  (   1.847 %)
Virtual       = 0.1059E-08  +/-  0.1048E-08  (  98.997 %)
Virtual ratio = -.1950E+00  +/-  0.4130E-03  (   0.212 %)
ABS virtual   = 0.4844E-06  +/-  0.8243E-09  (   0.170 %)
Born          = 0.1920E-05  +/-  0.2677E-08  (   0.139 %)
V  2          = 0.1059E-08  +/-  0.1048E-08  (  98.997 %)
B  2          = 0.1920E-05  +/-  0.2677E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9049E-06  +/-  0.9654E-08  (   1.067 %)
accumulated results Integral      = 0.5252E-06  +/-  0.9704E-08  (   1.847 %)
accumulated results Virtual       = 0.1059E-08  +/-  0.1048E-08  (  98.997 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4130E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8243E-09  (   0.170 %)
accumulated results Born          = 0.1920E-05  +/-  0.2677E-08  (   0.139 %)
accumulated results V  2          = 0.1059E-08  +/-  0.1048E-08  (  98.997 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2677E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                       1                                                           2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202881    23146  0.3372E-06  0.1939E-06  0.2468E+00
channel    2 :     1 T   209174    24358  0.3316E-06  0.2007E-06  0.9674E+00
channel    3 :     2 T    72676     8697  0.1165E-06  0.6241E-07  0.1000E+01
channel    4 :     2 T    75146     9333  0.1196E-06  0.6822E-07  0.8388E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0486842132051697E-007  +/-   9.6535363632451752E-009
 Final result:   5.2524931125039693E-007  +/-   9.7036307783272477E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408856
   Stability unknown:                                          0
   Stable PS point:                                       408856
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408856
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408856
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.59104419    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.61675406    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.82839966    
 Time spent in Integrated_CT :    10.1923828    
 Time spent in Virtuals :    615.293152    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.31700325    
 Time spent in N1body_prefactor :   0.845848322    
 Time spent in Adding_alphas_pdf :    10.9533215    
 Time spent in Reweight_scale :    45.8851204    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.7143021    
 Time spent in Applying_cuts :    6.10964775    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    48.1349564    
 Time spent in Other_tasks :    27.4263916    
 Time spent in Total :    805.908264    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_85, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42907
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          85
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 268345
  with seed                   48
 Ranmar initialization seeds       30233        7039
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.420292D+04 0.420292D+04  1.00
 muF1, muF1_reference: 0.420292D+04 0.420292D+04  1.00
 muF2, muF2_reference: 0.420292D+04 0.420292D+04  1.00
 QES,  QES_reference:  0.420292D+04 0.420292D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5034854441562798E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4083819596865497E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4258606061491686E-005           OLP:   -1.4258606061491679E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9819482178671284E-006           OLP:   -4.9819482178671911E-006
  FINITE:
           OLP:   -9.5738354213558753E-004
           BORN:    4.1092716861438113E-003
  MOMENTA (Exyzm): 
           1   2407.4921734266959        0.0000000000000000        0.0000000000000000        2407.4921734266959        0.0000000000000000     
           2   2407.4921734266959       -0.0000000000000000       -0.0000000000000000       -2407.4921734266959        0.0000000000000000     
           3   2407.4921734266959       -1028.7471202658260       -1721.2723213115712        1332.2610568286689        0.0000000000000000     
           4   2407.4921734266959        1028.7471202658260        1721.2723213115712       -1332.2610568286689        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4258606061491686E-005           OLP:   -1.4258606061491679E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9819482178671250E-006           OLP:   -4.9819482178671911E-006
ABS integral  = 0.8962E-06  +/-  0.1862E-08  (   0.208 %)
Integral      = 0.5148E-06  +/-  0.2105E-08  (   0.409 %)
Virtual       = 0.6794E-09  +/-  0.1049E-08  ( 154.338 %)
Virtual ratio = -.1949E+00  +/-  0.4128E-03  (   0.212 %)
ABS virtual   = 0.4847E-06  +/-  0.8245E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2674E-08  (   0.139 %)
V  2          = 0.6794E-09  +/-  0.1049E-08  ( 154.338 %)
B  2          = 0.1922E-05  +/-  0.2674E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8962E-06  +/-  0.1862E-08  (   0.208 %)
accumulated results Integral      = 0.5148E-06  +/-  0.2105E-08  (   0.409 %)
accumulated results Virtual       = 0.6794E-09  +/-  0.1049E-08  ( 154.338 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4128E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4847E-06  +/-  0.8245E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2674E-08  (   0.139 %)
accumulated results V  2          = 0.6794E-09  +/-  0.1049E-08  ( 154.338 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2674E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203314    23146  0.3267E-06  0.1838E-06  0.9552E+00
channel    2 :     1 T   208923    24358  0.3325E-06  0.2006E-06  0.9669E+00
channel    3 :     2 T    72210     8697  0.1165E-06  0.6273E-07  0.9547E+00
channel    4 :     2 T    75423     9333  0.1205E-06  0.6774E-07  0.8897E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9622502283717679E-007  +/-   1.8624955224358982E-009
 Final result:   5.1484277063353306E-007  +/-   2.1047808709133561E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409179
   Stability unknown:                                          0
   Stable PS point:                                       409179
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409179
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409179
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.63233805    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.64532757    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.89069796    
 Time spent in Integrated_CT :    10.2244873    
 Time spent in Virtuals :    614.814819    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.27262115    
 Time spent in N1body_prefactor :   0.828866899    
 Time spent in Adding_alphas_pdf :    11.1601372    
 Time spent in Reweight_scale :    45.7888374    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.4534130    
 Time spent in Applying_cuts :    6.19477081    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.4071274    
 Time spent in Other_tasks :    27.4723511    
 Time spent in Total :    804.785767    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_86, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42918
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          86
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 271502
  with seed                   48
 Ranmar initialization seeds       30233       10196
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439271D+04 0.439271D+04  1.00
 muF1, muF1_reference: 0.439271D+04 0.439271D+04  1.00
 muF2, muF2_reference: 0.439271D+04 0.439271D+04  1.00
 QES,  QES_reference:  0.439271D+04 0.439271D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4723172446194253E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4101559227228386E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4188497853466667E-005           OLP:   -1.4188497853466666E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1070269518707452E-006           OLP:   -5.1070269518705606E-006
  FINITE:
           OLP:   -9.4935117783667765E-004
           BORN:    4.0890667886271078E-003
  MOMENTA (Exyzm): 
           1   2401.3148237918858        0.0000000000000000        0.0000000000000000        2401.3148237918858        0.0000000000000000     
           2   2401.3148237918858       -0.0000000000000000       -0.0000000000000000       -2401.3148237918858        0.0000000000000000     
           3   2401.3148237918858       -1724.2512163726187       -1026.0210754144571        1319.2995787938241        0.0000000000000000     
           4   2401.3148237918858        1724.2512163726187        1026.0210754144571       -1319.2995787938241        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4188497853466667E-005           OLP:   -1.4188497853466666E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1070269518707418E-006           OLP:   -5.1070269518705606E-006
ABS integral  = 0.8934E-06  +/-  0.1859E-08  (   0.208 %)
Integral      = 0.5133E-06  +/-  0.2100E-08  (   0.409 %)
Virtual       = -.1117E-08  +/-  0.1041E-08  (  93.178 %)
Virtual ratio = -.1954E+00  +/-  0.4129E-03  (   0.211 %)
ABS virtual   = 0.4831E-06  +/-  0.8167E-09  (   0.169 %)
Born          = 0.1919E-05  +/-  0.2662E-08  (   0.139 %)
V  2          = -.1117E-08  +/-  0.1041E-08  (  93.178 %)
B  2          = 0.1919E-05  +/-  0.2662E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8934E-06  +/-  0.1859E-08  (   0.208 %)
accumulated results Integral      = 0.5133E-06  +/-  0.2100E-08  (   0.409 %)
accumulated results Virtual       = -.1117E-08  +/-  0.1041E-08  (  93.178 %)
accumulated results Virtual ratio = -.1954E+00  +/-  0.4129E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4831E-06  +/-  0.8167E-09  (   0.169 %)
accumulated results Born          = 0.1919E-05  +/-  0.2662E-08  (   0.139 %)
accumulated results V  2          = -.1117E-08  +/-  0.1041E-08  (  93.178 %)
accumulated results B  2          = 0.1919E-05  +/-  0.2662E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202677    23146  0.3254E-06  0.1837E-06  0.9330E+00
channel    2 :     1 T   208201    24358  0.3305E-06  0.2013E-06  0.9845E+00
channel    3 :     2 T    72920     8697  0.1177E-06  0.6140E-07  0.9021E+00
channel    4 :     2 T    76083     9333  0.1198E-06  0.6696E-07  0.9257E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9336691401697924E-007  +/-   1.8588033490230191E-009
 Final result:   5.1329238199004209E-007  +/-   2.1000176625748014E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408850
   Stability unknown:                                          0
   Stable PS point:                                       408850
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408850
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408850
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.60264182    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.58192730    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.91093540    
 Time spent in Integrated_CT :    10.3518066    
 Time spent in Virtuals :    616.860840    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.32545090    
 Time spent in N1body_prefactor :   0.845843375    
 Time spent in Adding_alphas_pdf :    10.9798002    
 Time spent in Reweight_scale :    45.8632126    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.7450752    
 Time spent in Applying_cuts :    6.25882149    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.3961411    
 Time spent in Other_tasks :    27.4477539    
 Time spent in Total :    807.170227    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_87, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42930
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          87
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 274659
  with seed                   48
 Ranmar initialization seeds       30233       13353
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433696D+04 0.433696D+04  1.00
 muF1, muF1_reference: 0.433696D+04 0.433696D+04  1.00
 muF2, muF2_reference: 0.433696D+04 0.433696D+04  1.00
 QES,  QES_reference:  0.433696D+04 0.433696D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4813052691161383E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4067637771772096E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4215115758868024E-005           OLP:   -1.4215115758868032E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0597086224036995E-006           OLP:   -5.0597086224039265E-006
  FINITE:
           OLP:   -9.5459909313187850E-004
           BORN:    4.0967379596054294E-003
  MOMENTA (Exyzm): 
           1   2413.1436198032961        0.0000000000000000        0.0000000000000000        2413.1436198032961        0.0000000000000000     
           2   2413.1436198032961       -0.0000000000000000       -0.0000000000000000       -2413.1436198032961        0.0000000000000000     
           3   2413.1436198032961       -1811.0486109116869       -880.87242832868503        1329.4468111671599        0.0000000000000000     
           4   2413.1436198032961        1811.0486109116869        880.87242832868503       -1329.4468111671599        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4215115758868024E-005           OLP:   -1.4215115758868032E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0597086224036978E-006           OLP:   -5.0597086224039265E-006
ABS integral  = 0.8935E-06  +/-  0.1814E-08  (   0.203 %)
Integral      = 0.5143E-06  +/-  0.2060E-08  (   0.401 %)
Virtual       = -.2533E-09  +/-  0.1043E-08  ( 411.606 %)
Virtual ratio = -.1955E+00  +/-  0.4128E-03  (   0.211 %)
ABS virtual   = 0.4835E-06  +/-  0.8182E-09  (   0.169 %)
Born          = 0.1918E-05  +/-  0.2656E-08  (   0.139 %)
V  2          = -.2533E-09  +/-  0.1043E-08  ( 411.606 %)
B  2          = 0.1918E-05  +/-  0.2656E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8935E-06  +/-  0.1814E-08  (   0.203 %)
accumulated results Integral      = 0.5143E-06  +/-  0.2060E-08  (   0.401 %)
accumulated results Virtual       = -.2533E-09  +/-  0.1043E-08  ( 411.606 %)
accumulated results Virtual ratio = -.1955E+00  +/-  0.4128E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8182E-09  (   0.169 %)
accumulated results Born          = 0.1918E-05  +/-  0.2656E-08  (   0.139 %)
accumulated results V  2          = -.2533E-09  +/-  0.1043E-08  ( 411.606 %)
accumulated results B  2          = 0.1918E-05  +/-  0.2656E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202719    23146  0.3254E-06  0.1838E-06  0.9717E+00
channel    2 :     1 T   209000    24358  0.3322E-06  0.2002E-06  0.9789E+00
channel    3 :     2 T    72238     8697  0.1163E-06  0.6202E-07  0.1000E+01
channel    4 :     2 T    75917     9333  0.1196E-06  0.6829E-07  0.8779E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9353782192464115E-007  +/-   1.8136608710574523E-009
 Final result:   5.1426309310672567E-007  +/-   2.0598674564156962E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408839
   Stability unknown:                                          0
   Stable PS point:                                       408839
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408839
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408839
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.57545757    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.59240723    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.80593777    
 Time spent in Integrated_CT :    10.0890503    
 Time spent in Virtuals :    613.205261    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.14041138    
 Time spent in N1body_prefactor :   0.844292164    
 Time spent in Adding_alphas_pdf :    10.9946365    
 Time spent in Reweight_scale :    45.6903343    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.2912407    
 Time spent in Applying_cuts :    5.97407484    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.0750961    
 Time spent in Other_tasks :    27.0531006    
 Time spent in Total :    801.331299    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_88, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42912
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          88
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 277816
  with seed                   48
 Ranmar initialization seeds       30233       16510
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427446D+04 0.427446D+04  1.00
 muF1, muF1_reference: 0.427446D+04 0.427446D+04  1.00
 muF2, muF2_reference: 0.427446D+04 0.427446D+04  1.00
 QES,  QES_reference:  0.427446D+04 0.427446D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4915449339545484E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4091681331843198E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4268753261496838E-005           OLP:   -1.4268753261496824E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9637045438808741E-006           OLP:   -4.9637045438809258E-006
  FINITE:
           OLP:   -9.5770038419886253E-004
           BORN:    4.1121960674960264E-003
  MOMENTA (Exyzm): 
           1   2404.7521961751218        0.0000000000000000        0.0000000000000000        2404.7521961751218        0.0000000000000000     
           2   2404.7521961751218       -0.0000000000000000       -0.0000000000000000       -2404.7521961751218        0.0000000000000000     
           3   2404.7521961751218       -1109.6292928763248       -1666.4336818284705        1332.1241464170921        0.0000000000000000     
           4   2404.7521961751218        1109.6292928763248        1666.4336818284705       -1332.1241464170921        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4268753261496838E-005           OLP:   -1.4268753261496824E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9637045438808741E-006           OLP:   -4.9637045438809258E-006
ABS integral  = 0.8944E-06  +/-  0.1853E-08  (   0.207 %)
Integral      = 0.5120E-06  +/-  0.2096E-08  (   0.409 %)
Virtual       = -.1958E-09  +/-  0.1046E-08  ( 534.060 %)
Virtual ratio = -.1957E+00  +/-  0.4127E-03  (   0.211 %)
ABS virtual   = 0.4841E-06  +/-  0.8216E-09  (   0.170 %)
Born          = 0.1921E-05  +/-  0.2669E-08  (   0.139 %)
V  2          = -.1958E-09  +/-  0.1046E-08  ( 534.060 %)
B  2          = 0.1921E-05  +/-  0.2669E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8944E-06  +/-  0.1853E-08  (   0.207 %)
accumulated results Integral      = 0.5120E-06  +/-  0.2096E-08  (   0.409 %)
accumulated results Virtual       = -.1958E-09  +/-  0.1046E-08  ( 534.060 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4127E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8216E-09  (   0.170 %)
accumulated results Born          = 0.1921E-05  +/-  0.2669E-08  (   0.139 %)
accumulated results V  2          = -.1958E-09  +/-  0.1046E-08  ( 534.060 %)
accumulated results B  2          = 0.1921E-05  +/-  0.2669E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                            2              3                         4
channel    1 :     1 T   203132    23146  0.3253E-06  0.1839E-06  0.1000E+01
channel    2 :     1 T   208749    24358  0.3326E-06  0.1976E-06  0.8988E+00
channel    3 :     2 T    72617     8697  0.1166E-06  0.6234E-07  0.9997E+00
channel    4 :     2 T    75374     9333  0.1199E-06  0.6816E-07  0.8710E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9439387520613953E-007  +/-   1.8526077738520679E-009
 Final result:   5.1202567121339775E-007  +/-   2.0958718688273093E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409151
   Stability unknown:                                          0
   Stable PS point:                                       409151
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409151
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409151
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.56517637    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.58367491    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.80018520    
 Time spent in Integrated_CT :    10.0104980    
 Time spent in Virtuals :    616.030518    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.22265053    
 Time spent in N1body_prefactor :   0.845836997    
 Time spent in Adding_alphas_pdf :    10.9989653    
 Time spent in Reweight_scale :    47.1544647    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.3139725    
 Time spent in Applying_cuts :    6.00791216    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.8306961    
 Time spent in Other_tasks :    27.1767578    
 Time spent in Total :    806.541321    
Time in seconds: 850



LOG file for integration channel /P0_uux_emep/all_G1_89, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25160
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          89
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 280973
  with seed                   48
 Ranmar initialization seeds       30233       19667
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.305362D+04 0.305362D+04  1.00
 muF1, muF1_reference: 0.305362D+04 0.305362D+04  1.00
 muF2, muF2_reference: 0.305362D+04 0.305362D+04  1.00
 QES,  QES_reference:  0.305362D+04 0.305362D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7369149751626856E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4121903019725946E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4151322071788553E-005           OLP:   -1.4151322071788549E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1725741031087828E-006           OLP:   -5.1725741031090403E-006
  FINITE:
           OLP:   -9.4422457971850217E-004
           BORN:    4.0783528810823359E-003
  MOMENTA (Exyzm): 
           1   2394.2539374148828        0.0000000000000000        0.0000000000000000        2394.2539374148828        0.0000000000000000     
           2   2394.2539374148828       -0.0000000000000000       -0.0000000000000000       -2394.2539374148828        0.0000000000000000     
           3   2394.2539374148828       -1120.2261496565056       -1661.4743079667603        1310.3619402359047        0.0000000000000000     
           4   2394.2539374148828        1120.2261496565056        1661.4743079667603       -1310.3619402359047        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4151322071788553E-005           OLP:   -1.4151322071788549E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1725741031087836E-006           OLP:   -5.1725741031090403E-006
 Error #15 in genps_fks.f  -1.0132789611816406E-006           3
ABS integral  = 0.8918E-06  +/-  0.1736E-08  (   0.195 %)
Integral      = 0.5150E-06  +/-  0.1990E-08  (   0.386 %)
Virtual       = -.2614E-09  +/-  0.1044E-08  ( 399.271 %)
Virtual ratio = -.1960E+00  +/-  0.4133E-03  (   0.211 %)
ABS virtual   = 0.4834E-06  +/-  0.8200E-09  (   0.170 %)
Born          = 0.1919E-05  +/-  0.2674E-08  (   0.139 %)
V  2          = -.2614E-09  +/-  0.1044E-08  ( 399.271 %)
B  2          = 0.1919E-05  +/-  0.2674E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8918E-06  +/-  0.1736E-08  (   0.195 %)
accumulated results Integral      = 0.5150E-06  +/-  0.1990E-08  (   0.386 %)
accumulated results Virtual       = -.2614E-09  +/-  0.1044E-08  ( 399.271 %)
accumulated results Virtual ratio = -.1960E+00  +/-  0.4133E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8200E-09  (   0.170 %)
accumulated results Born          = 0.1919E-05  +/-  0.2674E-08  (   0.139 %)
accumulated results V  2          = -.2614E-09  +/-  0.1044E-08  ( 399.271 %)
accumulated results B  2          = 0.1919E-05  +/-  0.2674E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                            2              3                         4
channel    1 :     1 T   202450    23146  0.3235E-06  0.1839E-06  0.1000E+01
channel    2 :     1 T   209864    24358  0.3318E-06  0.2014E-06  0.9924E+00
channel    3 :     2 T    72001     8697  0.1155E-06  0.6079E-07  0.1000E+01
channel    4 :     2 T    75557     9333  0.1211E-06  0.6891E-07  0.9008E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9183583498825510E-007  +/-   1.7361673963424884E-009
 Final result:   5.1497492683663947E-007  +/-   1.9902837373635549E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408430
   Stability unknown:                                          0
   Stable PS point:                                       408430
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408430
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408430
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52049589    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.97674084    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.67491055    
 Time spent in Integrated_CT :    10.1954346    
 Time spent in Virtuals :    615.574280    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.87867546    
 Time spent in N1body_prefactor :   0.778437853    
 Time spent in Adding_alphas_pdf :    11.1045332    
 Time spent in Reweight_scale :    46.5251884    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.5634575    
 Time spent in Applying_cuts :    5.71936321    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    44.2048149    
 Time spent in Other_tasks :    25.2298584    
 Time spent in Total :    796.946228    
Time in seconds: 839



LOG file for integration channel /P0_uux_emep/all_G1_90, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25140
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          90
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 284130
  with seed                   48
 Ranmar initialization seeds       30233       22824
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.421462D+04 0.421462D+04  1.00
 muF1, muF1_reference: 0.421462D+04 0.421462D+04  1.00
 muF2, muF2_reference: 0.421462D+04 0.421462D+04  1.00
 QES,  QES_reference:  0.421462D+04 0.421462D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5015162299236451E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4081352661181460E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4144181203345352E-005           OLP:   -1.4144181203345369E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1849980351896042E-006           OLP:   -5.1849980351896525E-006
  FINITE:
           OLP:   -9.4681505294284623E-004
           BORN:    4.0762949121349104E-003
  MOMENTA (Exyzm): 
           1   2408.3527200807248        0.0000000000000000        0.0000000000000000        2408.3527200807248        0.0000000000000000     
           2   2408.3527200807248       -0.0000000000000000       -0.0000000000000000       -2408.3527200807248        0.0000000000000000     
           3   2408.3527200807248       -2015.3940440545598       -59.833128641796336        1317.1065515844066        0.0000000000000000     
           4   2408.3527200807248        2015.3940440545598        59.833128641796336       -1317.1065515844066        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4144181203345352E-005           OLP:   -1.4144181203345369E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1849980351896050E-006           OLP:   -5.1849980351896525E-006
ABS integral  = 0.8956E-06  +/-  0.1977E-08  (   0.221 %)
Integral      = 0.5107E-06  +/-  0.2208E-08  (   0.432 %)
Virtual       = -.7343E-09  +/-  0.1049E-08  ( 142.797 %)
Virtual ratio = -.1957E+00  +/-  0.4134E-03  (   0.211 %)
ABS virtual   = 0.4846E-06  +/-  0.8246E-09  (   0.170 %)
Born          = 0.1920E-05  +/-  0.2677E-08  (   0.139 %)
V  2          = -.7343E-09  +/-  0.1049E-08  ( 142.797 %)
B  2          = 0.1920E-05  +/-  0.2677E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8956E-06  +/-  0.1977E-08  (   0.221 %)
accumulated results Integral      = 0.5107E-06  +/-  0.2208E-08  (   0.432 %)
accumulated results Virtual       = -.7343E-09  +/-  0.1049E-08  ( 142.797 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4134E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4846E-06  +/-  0.8246E-09  (   0.170 %)
accumulated results Born          = 0.1920E-05  +/-  0.2677E-08  (   0.139 %)
accumulated results V  2          = -.7343E-09  +/-  0.1049E-08  ( 142.797 %)
accumulated results B  2          = 0.1920E-05  +/-  0.2677E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   201876    23146  0.3246E-06  0.1830E-06  0.9171E+00
channel    2 :     1 T   209604    24358  0.3344E-06  0.1991E-06  0.8622E+00
channel    3 :     2 T    72409     8697  0.1168E-06  0.6104E-07  0.1000E+01
channel    4 :     2 T    75984     9333  0.1197E-06  0.6759E-07  0.9148E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9564784231120357E-007  +/-   1.9773116860682910E-009
 Final result:   5.1070461093153881E-007  +/-   2.2083268023835848E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408522
   Stability unknown:                                          0
   Stable PS point:                                       408522
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408522
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408522
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53744769    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.90347004    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.67333508    
 Time spent in Integrated_CT :    10.2739258    
 Time spent in Virtuals :    617.268066    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.89631844    
 Time spent in N1body_prefactor :   0.758347690    
 Time spent in Adding_alphas_pdf :    11.2349548    
 Time spent in Reweight_scale :    46.3603210    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.6224365    
 Time spent in Applying_cuts :    5.77641010    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    44.2058907    
 Time spent in Other_tasks :    25.3502197    
 Time spent in Total :    798.861206    
Time in seconds: 842



LOG file for integration channel /P0_uux_emep/all_G1_91, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25162
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          91
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 287287
  with seed                   48
 Ranmar initialization seeds       30233       25981
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432405D+04 0.432405D+04  1.00
 muF1, muF1_reference: 0.432405D+04 0.432405D+04  1.00
 muF2, muF2_reference: 0.432405D+04 0.432405D+04  1.00
 QES,  QES_reference:  0.432405D+04 0.432405D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4834055274757866E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4099752179581604E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4220406770946905E-005           OLP:   -1.4220406770946912E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0503598882902919E-006           OLP:   -5.0503598882902953E-006
  FINITE:
           OLP:   -9.5249628387822491E-004
           BORN:    4.0982628075487016E-003
  MOMENTA (Exyzm): 
           1   2401.9432127619948        0.0000000000000000        0.0000000000000000        2401.9432127619948        0.0000000000000000     
           2   2401.9432127619948       -0.0000000000000000       -0.0000000000000000       -2401.9432127619948        0.0000000000000000     
           3   2401.9432127619948       -1982.2494367579748       -295.06595069686159        1323.9918627187490        0.0000000000000000     
           4   2401.9432127619948        1982.2494367579748        295.06595069686159       -1323.9918627187490        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4220406770946905E-005           OLP:   -1.4220406770946912E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0503598882902927E-006           OLP:   -5.0503598882902953E-006
ABS integral  = 0.8937E-06  +/-  0.1784E-08  (   0.200 %)
Integral      = 0.5130E-06  +/-  0.2035E-08  (   0.397 %)
Virtual       = -.1231E-08  +/-  0.1049E-08  (  85.175 %)
Virtual ratio = -.1959E+00  +/-  0.4128E-03  (   0.211 %)
ABS virtual   = 0.4845E-06  +/-  0.8250E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2674E-08  (   0.139 %)
V  2          = -.1231E-08  +/-  0.1049E-08  (  85.175 %)
B  2          = 0.1922E-05  +/-  0.2674E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8937E-06  +/-  0.1784E-08  (   0.200 %)
accumulated results Integral      = 0.5130E-06  +/-  0.2035E-08  (   0.397 %)
accumulated results Virtual       = -.1231E-08  +/-  0.1049E-08  (  85.175 %)
accumulated results Virtual ratio = -.1959E+00  +/-  0.4128E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4845E-06  +/-  0.8250E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2674E-08  (   0.139 %)
accumulated results V  2          = -.1231E-08  +/-  0.1049E-08  (  85.175 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2674E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   201964    23146  0.3239E-06  0.1840E-06  0.1000E+01
channel    2 :     1 T   209532    24358  0.3317E-06  0.1988E-06  0.9930E+00
channel    3 :     2 T    72616     8697  0.1181E-06  0.6318E-07  0.9936E+00
channel    4 :     2 T    75756     9333  0.1201E-06  0.6701E-07  0.8936E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9373207123825014E-007  +/-   1.7839860166869909E-009
 Final result:   5.1297898364256205E-007  +/-   2.0345197094101357E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408879
   Stability unknown:                                          0
   Stable PS point:                                       408879
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408879
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408879
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54935145    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.92972040    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.67110872    
 Time spent in Integrated_CT :    10.2175903    
 Time spent in Virtuals :    617.944336    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.83757687    
 Time spent in N1body_prefactor :   0.798391700    
 Time spent in Adding_alphas_pdf :    11.2134771    
 Time spent in Reweight_scale :    46.1654320    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.3902645    
 Time spent in Applying_cuts :    5.67357445    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    44.0328484    
 Time spent in Other_tasks :    25.3137207    
 Time spent in Total :    798.737427    
Time in seconds: 842



LOG file for integration channel /P0_uux_emep/all_G1_92, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25161
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          92
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 290444
  with seed                   48
 Ranmar initialization seeds       30233       29138
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437837D+04 0.437837D+04  1.00
 muF1, muF1_reference: 0.437837D+04 0.437837D+04  1.00
 muF2, muF2_reference: 0.437837D+04 0.437837D+04  1.00
 QES,  QES_reference:  0.437837D+04 0.437837D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4746166802368799E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4087020040157506E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4271630075902393E-005           OLP:   -1.4271630075902374E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9585083577944879E-006           OLP:   -4.9585083577836221E-006
  FINITE:
           OLP:   -9.5835038878632774E-004
           BORN:    4.1130251535884572E-003
  MOMENTA (Exyzm): 
           1   2406.3763029378847        0.0000000000000000        0.0000000000000000        2406.3763029378847        0.0000000000000000     
           2   2406.3763029378847       -0.0000000000000000       -0.0000000000000000       -2406.3763029378847        0.0000000000000000     
           3   2406.3763029378847       -1440.7120728012858       -1391.7604687316693        1333.4160762123083        0.0000000000000000     
           4   2406.3763029378847        1440.7120728012858        1391.7604687316693       -1333.4160762123083        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4271630075902393E-005           OLP:   -1.4271630075902374E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9585083577944845E-006           OLP:   -4.9585083577836221E-006
 Error #15 in genps_fks.f  -1.2787058949470520E-006           3
ABS integral  = 0.8954E-06  +/-  0.2329E-08  (   0.260 %)
Integral      = 0.5140E-06  +/-  0.2526E-08  (   0.492 %)
Virtual       = 0.1255E-11  +/-  0.1041E-08  ( ******* %)
Virtual ratio = -.1955E+00  +/-  0.4128E-03  (   0.211 %)
ABS virtual   = 0.4833E-06  +/-  0.8168E-09  (   0.169 %)
Born          = 0.1919E-05  +/-  0.2657E-08  (   0.138 %)
V  2          = 0.1255E-11  +/-  0.1041E-08  ( ******* %)
B  2          = 0.1919E-05  +/-  0.2657E-08  (   0.138 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8954E-06  +/-  0.2329E-08  (   0.260 %)
accumulated results Integral      = 0.5140E-06  +/-  0.2526E-08  (   0.492 %)
accumulated results Virtual       = 0.1255E-11  +/-  0.1041E-08  ( ******* %)
accumulated results Virtual ratio = -.1955E+00  +/-  0.4128E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8168E-09  (   0.169 %)
accumulated results Born          = 0.1919E-05  +/-  0.2657E-08  (   0.138 %)
accumulated results V  2          = 0.1255E-11  +/-  0.1041E-08  ( ******* %)
accumulated results B  2          = 0.1919E-05  +/-  0.2657E-08  (   0.138 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202798    23146  0.3256E-06  0.1863E-06  0.1000E+01
channel    2 :     1 T   209113    24358  0.3319E-06  0.1975E-06  0.6065E+00
channel    3 :     2 T    72359     8697  0.1169E-06  0.6213E-07  0.9868E+00
channel    4 :     2 T    75604     9333  0.1210E-06  0.6809E-07  0.9088E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9544664435638460E-007  +/-   2.3286905948640458E-009
 Final result:   5.1399078519589289E-007  +/-   2.5264772973105299E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    409058
   Stability unknown:                                          0
   Stable PS point:                                       409058
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 409058
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       409058
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.56428206    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.93286753    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.63711739    
 Time spent in Integrated_CT :    10.2130127    
 Time spent in Virtuals :    619.169678    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.84203243    
 Time spent in N1body_prefactor :   0.783130825    
 Time spent in Adding_alphas_pdf :    11.1749973    
 Time spent in Reweight_scale :    46.2700081    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.7134619    
 Time spent in Applying_cuts :    5.74165201    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    44.1526413    
 Time spent in Other_tasks :    25.3074341    
 Time spent in Total :    800.502319    
Time in seconds: 845



LOG file for integration channel /P0_uux_emep/all_G1_93, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25159
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          93
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 293601
  with seed                   48
 Ranmar initialization seeds       30233        2214
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.420664D+04 0.420664D+04  1.00
 muF1, muF1_reference: 0.420664D+04 0.420664D+04  1.00
 muF2, muF2_reference: 0.420664D+04 0.420664D+04  1.00
 QES,  QES_reference:  0.420664D+04 0.420664D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5028584100717763E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4104591820729079E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4237427581132035E-005           OLP:   -1.4237427581132038E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0199783168204115E-006           OLP:   -5.0199783168203539E-006
  FINITE:
           OLP:   -9.5370489285945173E-004
           BORN:    4.1031681351148992E-003
  MOMENTA (Exyzm): 
           1   2400.2607005713157        0.0000000000000000        0.0000000000000000        2400.2607005713157        0.0000000000000000     
           2   2400.2607005713157       -0.0000000000000000       -0.0000000000000000       -2400.2607005713157        0.0000000000000000     
           3   2400.2607005713157       -1974.4892395110426       -325.60071030878009        1325.3783803912852        0.0000000000000000     
           4   2400.2607005713157        1974.4892395110426        325.60071030878009       -1325.3783803912852        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4237427581132035E-005           OLP:   -1.4237427581132038E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0199783168204115E-006           OLP:   -5.0199783168203539E-006
ABS integral  = 0.8940E-06  +/-  0.1961E-08  (   0.219 %)
Integral      = 0.5159E-06  +/-  0.2190E-08  (   0.425 %)
Virtual       = 0.8120E-10  +/-  0.1041E-08  ( ******* %)
Virtual ratio = -.1956E+00  +/-  0.4133E-03  (   0.211 %)
ABS virtual   = 0.4837E-06  +/-  0.8166E-09  (   0.169 %)
Born          = 0.1919E-05  +/-  0.2663E-08  (   0.139 %)
V  2          = 0.8120E-10  +/-  0.1041E-08  ( ******* %)
B  2          = 0.1919E-05  +/-  0.2663E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8940E-06  +/-  0.1961E-08  (   0.219 %)
accumulated results Integral      = 0.5159E-06  +/-  0.2190E-08  (   0.425 %)
accumulated results Virtual       = 0.8120E-10  +/-  0.1041E-08  ( ******* %)
accumulated results Virtual ratio = -.1956E+00  +/-  0.4133E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8166E-09  (   0.169 %)
accumulated results Born          = 0.1919E-05  +/-  0.2663E-08  (   0.139 %)
accumulated results V  2          = 0.8120E-10  +/-  0.1041E-08  ( ******* %)
accumulated results B  2          = 0.1919E-05  +/-  0.2663E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202425    23146  0.3248E-06  0.1842E-06  0.9775E+00
channel    2 :     1 T   209522    24358  0.3329E-06  0.2004E-06  0.8394E+00
channel    3 :     2 T    72382     8697  0.1154E-06  0.6276E-07  0.1000E+01
channel    4 :     2 T    75541     9333  0.1209E-06  0.6855E-07  0.8396E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9401394543119526E-007  +/-   1.9606075038758808E-009
 Final result:   5.1589877799682089E-007  +/-   2.1900183732520815E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408778
   Stability unknown:                                          0
   Stable PS point:                                       408778
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408778
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408778
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50574481    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.96626854    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.62688732    
 Time spent in Integrated_CT :    10.0416260    
 Time spent in Virtuals :    615.193115    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.80385017    
 Time spent in N1body_prefactor :   0.782262802    
 Time spent in Adding_alphas_pdf :    11.1886444    
 Time spent in Reweight_scale :    46.1489372    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.5830212    
 Time spent in Applying_cuts :    5.69075012    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    44.1548157    
 Time spent in Other_tasks :    24.9829712    
 Time spent in Total :    795.668884    
Time in seconds: 838



LOG file for integration channel /P0_uux_emep/all_G1_94, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25149
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          94
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 296758
  with seed                   48
 Ranmar initialization seeds       30233        5371
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438336D+04 0.438336D+04  1.00
 muF1, muF1_reference: 0.438336D+04 0.438336D+04  1.00
 muF2, muF2_reference: 0.438336D+04 0.438336D+04  1.00
 QES,  QES_reference:  0.438336D+04 0.438336D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4738146189763432E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4084779152403482E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4178191047524648E-005           OLP:   -1.4178191047524633E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1252028011830455E-006           OLP:   -5.1252028011821857E-006
  FINITE:
           OLP:   -9.4973653207649079E-004
           BORN:    4.0860964094996200E-003
  MOMENTA (Exyzm): 
           1   2407.1575487523592        0.0000000000000000        0.0000000000000000        2407.1575487523592        0.0000000000000000     
           2   2407.1575487523592       -0.0000000000000000       -0.0000000000000000       -2407.1575487523592        0.0000000000000000     
           3   2407.1575487523592       -1610.1858880693130       -1206.8113356199767        1321.1038076536724        0.0000000000000000     
           4   2407.1575487523592        1610.1858880693130        1206.8113356199767       -1321.1038076536724        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4178191047524648E-005           OLP:   -1.4178191047524633E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1252028011830455E-006           OLP:   -5.1252028011821857E-006
ABS integral  = 0.8942E-06  +/-  0.1799E-08  (   0.201 %)
Integral      = 0.5150E-06  +/-  0.2047E-08  (   0.398 %)
Virtual       = 0.1871E-08  +/-  0.1046E-08  (  55.915 %)
Virtual ratio = -.1946E+00  +/-  0.4136E-03  (   0.213 %)
ABS virtual   = 0.4839E-06  +/-  0.8222E-09  (   0.170 %)
Born          = 0.1918E-05  +/-  0.2672E-08  (   0.139 %)
V  2          = 0.1871E-08  +/-  0.1046E-08  (  55.915 %)
B  2          = 0.1918E-05  +/-  0.2672E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8942E-06  +/-  0.1799E-08  (   0.201 %)
accumulated results Integral      = 0.5150E-06  +/-  0.2047E-08  (   0.398 %)
accumulated results Virtual       = 0.1871E-08  +/-  0.1046E-08  (  55.915 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4136E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8222E-09  (   0.170 %)
accumulated results Born          = 0.1918E-05  +/-  0.2672E-08  (   0.139 %)
accumulated results V  2          = 0.1871E-08  +/-  0.1046E-08  (  55.915 %)
accumulated results B  2          = 0.1918E-05  +/-  0.2672E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203539    23146  0.3265E-06  0.1862E-06  0.1000E+01
channel    2 :     1 T   208597    24358  0.3306E-06  0.1995E-06  0.9802E+00
channel    3 :     2 T    72540     8697  0.1174E-06  0.6186E-07  0.9667E+00
channel    4 :     2 T    75193     9333  0.1197E-06  0.6741E-07  0.8936E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9415130750050534E-007  +/-   1.7992965101263394E-009
 Final result:   5.1496160229364101E-007  +/-   2.0473961289223629E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408552
   Stability unknown:                                          0
   Stable PS point:                                       408552
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408552
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408552
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53662407    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.91250038    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.58813286    
 Time spent in Integrated_CT :    10.1625977    
 Time spent in Virtuals :    616.317505    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.84127617    
 Time spent in N1body_prefactor :   0.790587962    
 Time spent in Adding_alphas_pdf :    11.1389294    
 Time spent in Reweight_scale :    46.2398415    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.4153481    
 Time spent in Applying_cuts :    5.70102406    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    44.2384415    
 Time spent in Other_tasks :    25.0258179    
 Time spent in Total :    796.908630    
Time in seconds: 839



LOG file for integration channel /P0_uux_emep/all_G1_95, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25141
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          95
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 299915
  with seed                   48
 Ranmar initialization seeds       30233        8528
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419415D+04 0.419415D+04  1.00
 muF1, muF1_reference: 0.419415D+04 0.419415D+04  1.00
 muF2, muF2_reference: 0.419415D+04 0.419415D+04  1.00
 QES,  QES_reference:  0.419415D+04 0.419415D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5049666514794153E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4105128453481717E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4208949315029232E-005           OLP:   -1.4208949315029203E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0707655164204634E-006           OLP:   -5.0707655164203940E-006
  FINITE:
           OLP:   -9.5098457557591439E-004
           BORN:    4.0949608158256197E-003
  MOMENTA (Exyzm): 
           1   2400.0742257072129        0.0000000000000000        0.0000000000000000        2400.0742257072129        0.0000000000000000     
           2   2400.0742257072129       -0.0000000000000000       -0.0000000000000000       -2400.0742257072129        0.0000000000000000     
           3   2400.0742257072129       -1969.1982601723748       -369.47454169826290        1321.4019313119791        0.0000000000000000     
           4   2400.0742257072129        1969.1982601723748        369.47454169826290       -1321.4019313119791        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4208949315029232E-005           OLP:   -1.4208949315029203E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0707655164204643E-006           OLP:   -5.0707655164203940E-006
ABS integral  = 0.8944E-06  +/-  0.1962E-08  (   0.219 %)
Integral      = 0.5130E-06  +/-  0.2193E-08  (   0.427 %)
Virtual       = -.1381E-11  +/-  0.1046E-08  ( ******* %)
Virtual ratio = -.1954E+00  +/-  0.4133E-03  (   0.212 %)
ABS virtual   = 0.4844E-06  +/-  0.8219E-09  (   0.170 %)
Born          = 0.1920E-05  +/-  0.2674E-08  (   0.139 %)
V  2          = -.1381E-11  +/-  0.1046E-08  ( ******* %)
B  2          = 0.1920E-05  +/-  0.2674E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8944E-06  +/-  0.1962E-08  (   0.219 %)
accumulated results Integral      = 0.5130E-06  +/-  0.2193E-08  (   0.427 %)
accumulated results Virtual       = -.1381E-11  +/-  0.1046E-08  ( ******* %)
accumulated results Virtual ratio = -.1954E+00  +/-  0.4133E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8219E-09  (   0.170 %)
accumulated results Born          = 0.1920E-05  +/-  0.2674E-08  (   0.139 %)
accumulated results V  2          = -.1381E-11  +/-  0.1046E-08  ( ******* %)
accumulated results B  2          = 0.1920E-05  +/-  0.2674E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202012    23146  0.3228E-06  0.1845E-06  0.9001E+00
channel    2 :     1 T   209989    24358  0.3353E-06  0.1992E-06  0.9601E+00
channel    3 :     2 T    71958     8697  0.1153E-06  0.6139E-07  0.9908E+00
channel    4 :     2 T    75913     9333  0.1210E-06  0.6795E-07  0.7783E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9441961266748479E-007  +/-   1.9621741905957933E-009
 Final result:   5.1303473737321893E-007  +/-   2.1929171508929177E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408771
   Stability unknown:                                          0
   Stable PS point:                                       408771
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408771
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408771
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53762162    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.93708229    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.61023808    
 Time spent in Integrated_CT :    10.2294922    
 Time spent in Virtuals :    615.333374    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.78658295    
 Time spent in N1body_prefactor :   0.762021899    
 Time spent in Adding_alphas_pdf :    11.0807648    
 Time spent in Reweight_scale :    46.0863838    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.1033649    
 Time spent in Applying_cuts :    5.72851276    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    44.5615921    
 Time spent in Other_tasks :    25.0216064    
 Time spent in Total :    796.778625    
Time in seconds: 839



LOG file for integration channel /P0_uux_emep/all_G1_96, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25158
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          96
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 303072
  with seed                   48
 Ranmar initialization seeds       30233       11685
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441391D+04 0.441391D+04  1.00
 muF1, muF1_reference: 0.441391D+04 0.441391D+04  1.00
 muF2, muF2_reference: 0.441391D+04 0.441391D+04  1.00
 QES,  QES_reference:  0.441391D+04 0.441391D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4689338330766630E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4073181007937833E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4332174725768270E-005           OLP:   -1.4332174725768260E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8485665040250850E-006           OLP:   -4.8485665040250562E-006
  FINITE:
           OLP:   -9.6519013690941902E-004
           BORN:    4.1304738729351026E-003
  MOMENTA (Exyzm): 
           1   2411.2058813252938        0.0000000000000000        0.0000000000000000        2411.2058813252938        0.0000000000000000     
           2   2411.2058813252938       -0.0000000000000000       -0.0000000000000000       -2411.2058813252938        0.0000000000000000     
           3   2411.2058813252938       -1964.0095535770322       -386.43105795408320        1344.3404751194255        0.0000000000000000     
           4   2411.2058813252938        1964.0095535770322        386.43105795408320       -1344.3404751194255        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4332174725768270E-005           OLP:   -1.4332174725768260E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8485665040250850E-006           OLP:   -4.8485665040250562E-006
ABS integral  = 0.8979E-06  +/-  0.2799E-08  (   0.312 %)
Integral      = 0.5184E-06  +/-  0.2966E-08  (   0.572 %)
Virtual       = -.9236E-09  +/-  0.1047E-08  ( 113.402 %)
Virtual ratio = -.1958E+00  +/-  0.4125E-03  (   0.211 %)
ABS virtual   = 0.4844E-06  +/-  0.8233E-09  (   0.170 %)
Born          = 0.1922E-05  +/-  0.2684E-08  (   0.140 %)
V  2          = -.9236E-09  +/-  0.1047E-08  ( 113.402 %)
B  2          = 0.1922E-05  +/-  0.2684E-08  (   0.140 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8979E-06  +/-  0.2799E-08  (   0.312 %)
accumulated results Integral      = 0.5184E-06  +/-  0.2966E-08  (   0.572 %)
accumulated results Virtual       = -.9236E-09  +/-  0.1047E-08  ( 113.402 %)
accumulated results Virtual ratio = -.1958E+00  +/-  0.4125E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8233E-09  (   0.170 %)
accumulated results Born          = 0.1922E-05  +/-  0.2684E-08  (   0.140 %)
accumulated results V  2          = -.9236E-09  +/-  0.1047E-08  ( 113.402 %)
accumulated results B  2          = 0.1922E-05  +/-  0.2684E-08  (   0.140 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202285    23146  0.3284E-06  0.1881E-06  0.4980E+00
channel    2 :     1 T   209761    24358  0.3338E-06  0.1999E-06  0.9551E+00
channel    3 :     2 T    72283     8697  0.1159E-06  0.6154E-07  0.9223E+00
channel    4 :     2 T    75543     9333  0.1198E-06  0.6888E-07  0.9151E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9790943026214952E-007  +/-   2.7991651938361066E-009
 Final result:   5.1844663978590986E-007  +/-   2.9656846172977779E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408986
   Stability unknown:                                          0
   Stable PS point:                                       408986
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408986
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408986
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53538847    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.91781425    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.58412838    
 Time spent in Integrated_CT :    10.0905151    
 Time spent in Virtuals :    617.177124    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.87600803    
 Time spent in N1body_prefactor :   0.775386512    
 Time spent in Adding_alphas_pdf :    11.2141705    
 Time spent in Reweight_scale :    46.1673698    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.8292923    
 Time spent in Applying_cuts :    5.72134686    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    44.2822418    
 Time spent in Other_tasks :    25.2958984    
 Time spent in Total :    798.466736    
Time in seconds: 842



LOG file for integration channel /P0_uux_emep/all_G1_97, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25155
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          97
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 306229
  with seed                   48
 Ranmar initialization seeds       30233       14842
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439087D+04 0.439087D+04  1.00
 muF1, muF1_reference: 0.439087D+04 0.439087D+04  1.00
 muF2, muF2_reference: 0.439087D+04 0.439087D+04  1.00
 QES,  QES_reference:  0.439087D+04 0.439087D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4726117219377677E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4112088279827598E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4222626721184515E-005           OLP:   -1.4222626721184500E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0464316183300547E-006           OLP:   -5.0464316183300885E-006
  FINITE:
           OLP:   -9.5170707505187247E-004
           BORN:    4.0989025880866252E-003
  MOMENTA (Exyzm): 
           1   2397.6573182372558        0.0000000000000000        0.0000000000000000        2397.6573182372558        0.0000000000000000     
           2   2397.6573182372558       -0.0000000000000000       -0.0000000000000000       -2397.6573182372558        0.0000000000000000     
           3   2397.6573182372558       -1923.8149023491137       -547.90509707444858        1321.9292120972207        0.0000000000000000     
           4   2397.6573182372558        1923.8149023491137        547.90509707444858       -1321.9292120972207        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4222626721184515E-005           OLP:   -1.4222626721184500E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0464316183300547E-006           OLP:   -5.0464316183300885E-006
ABS integral  = 0.8922E-06  +/-  0.1811E-08  (   0.203 %)
Integral      = 0.5140E-06  +/-  0.2057E-08  (   0.400 %)
Virtual       = 0.1440E-08  +/-  0.1044E-08  (  72.494 %)
Virtual ratio = -.1949E+00  +/-  0.4132E-03  (   0.212 %)
ABS virtual   = 0.4832E-06  +/-  0.8200E-09  (   0.170 %)
Born          = 0.1917E-05  +/-  0.2672E-08  (   0.139 %)
V  2          = 0.1440E-08  +/-  0.1044E-08  (  72.494 %)
B  2          = 0.1917E-05  +/-  0.2672E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8922E-06  +/-  0.1811E-08  (   0.203 %)
accumulated results Integral      = 0.5140E-06  +/-  0.2057E-08  (   0.400 %)
accumulated results Virtual       = 0.1440E-08  +/-  0.1044E-08  (  72.494 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4132E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8200E-09  (   0.170 %)
accumulated results Born          = 0.1917E-05  +/-  0.2672E-08  (   0.139 %)
accumulated results V  2          = 0.1440E-08  +/-  0.1044E-08  (  72.494 %)
accumulated results B  2          = 0.1917E-05  +/-  0.2672E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   203149    23146  0.3253E-06  0.1835E-06  0.9525E+00
channel    2 :     1 T   209051    24358  0.3309E-06  0.1987E-06  0.9930E+00
channel    3 :     2 T    72601     8697  0.1167E-06  0.6351E-07  0.9967E+00
channel    4 :     2 T    75073     9333  0.1193E-06  0.6825E-07  0.9133E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9218511976447553E-007  +/-   1.8110681884370578E-009
 Final result:   5.1400404423806139E-007  +/-   2.0566520044482288E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408641
   Stability unknown:                                          0
   Stable PS point:                                       408641
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408641
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408641
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.55324483    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.90877628    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.63599300    
 Time spent in Integrated_CT :    10.0903320    
 Time spent in Virtuals :    615.751892    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.80225372    
 Time spent in N1body_prefactor :   0.764724255    
 Time spent in Adding_alphas_pdf :    11.2030411    
 Time spent in Reweight_scale :    46.2071953    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.6194572    
 Time spent in Applying_cuts :    5.68102074    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.9140778    
 Time spent in Other_tasks :    25.0987549    
 Time spent in Total :    796.230774    
Time in seconds: 838



LOG file for integration channel /P0_uux_emep/all_G1_98, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25148
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          98
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 309386
  with seed                   48
 Ranmar initialization seeds       30233       17999
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435633D+04 0.435633D+04  1.00
 muF1, muF1_reference: 0.435633D+04 0.435633D+04  1.00
 muF2, muF2_reference: 0.435633D+04 0.435633D+04  1.00
 QES,  QES_reference:  0.435633D+04 0.435633D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4781661310068831E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4063964048553241E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4162243102654969E-005           OLP:   -1.4162243102654973E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1532552542626691E-006           OLP:   -5.1532552542611555E-006
  FINITE:
           OLP:   -9.4991596321344169E-004
           BORN:    4.0815002773095218E-003
  MOMENTA (Exyzm): 
           1   2414.4288609636210        0.0000000000000000        0.0000000000000000        2414.4288609636210        0.0000000000000000     
           2   2414.4288609636210       -0.0000000000000000       -0.0000000000000000       -2414.4288609636210        0.0000000000000000     
           3   2414.4288609636210       -1514.9391632477295       -1335.7894259882694        1322.9106794225702        0.0000000000000000     
           4   2414.4288609636210        1514.9391632477295        1335.7894259882694       -1322.9106794225702        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4162243102654969E-005           OLP:   -1.4162243102654973E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1532552542626733E-006           OLP:   -5.1532552542611555E-006
ABS integral  = 0.8957E-06  +/-  0.3038E-08  (   0.339 %)
Integral      = 0.5100E-06  +/-  0.3193E-08  (   0.626 %)
Virtual       = -.2022E-08  +/-  0.1041E-08  (  51.463 %)
Virtual ratio = -.1957E+00  +/-  0.4127E-03  (   0.211 %)
ABS virtual   = 0.4831E-06  +/-  0.8160E-09  (   0.169 %)
Born          = 0.1918E-05  +/-  0.2664E-08  (   0.139 %)
V  2          = -.2022E-08  +/-  0.1041E-08  (  51.463 %)
B  2          = 0.1918E-05  +/-  0.2664E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8957E-06  +/-  0.3038E-08  (   0.339 %)
accumulated results Integral      = 0.5100E-06  +/-  0.3193E-08  (   0.626 %)
accumulated results Virtual       = -.2022E-08  +/-  0.1041E-08  (  51.463 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4127E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4831E-06  +/-  0.8160E-09  (   0.169 %)
accumulated results Born          = 0.1918E-05  +/-  0.2664E-08  (   0.139 %)
accumulated results V  2          = -.2022E-08  +/-  0.1041E-08  (  51.463 %)
accumulated results B  2          = 0.1918E-05  +/-  0.2664E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                            2              3                         4
channel    1 :     1 T   202912    23146  0.3268E-06  0.1843E-06  0.9234E+00
channel    2 :     1 T   209140    24358  0.3312E-06  0.1991E-06  0.9123E+00
channel    3 :     2 T    72243     8697  0.1160E-06  0.6242E-07  0.1000E+01
channel    4 :     2 T    75574     9333  0.1217E-06  0.6419E-07  0.2897E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9573029789376328E-007  +/-   3.0379802477878510E-009
 Final result:   5.0996300348135414E-007  +/-   3.1934128378522118E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408536
   Stability unknown:                                          0
   Stable PS point:                                       408536
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408536
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408536
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50689960    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.88702536    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.66910648    
 Time spent in Integrated_CT :    10.1351929    
 Time spent in Virtuals :    619.396912    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.70183468    
 Time spent in N1body_prefactor :   0.743129373    
 Time spent in Adding_alphas_pdf :    11.1809034    
 Time spent in Reweight_scale :    46.1242142    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.3453293    
 Time spent in Applying_cuts :    5.69667339    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.9735489    
 Time spent in Other_tasks :    24.8771362    
 Time spent in Total :    799.237915    
Time in seconds: 842



LOG file for integration channel /P0_uux_emep/all_G1_99, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25151
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          99
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 312543
  with seed                   48
 Ranmar initialization seeds       30233       21156
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.302917D+04 0.302917D+04  1.00
 muF1, muF1_reference: 0.302917D+04 0.302917D+04  1.00
 muF2, muF2_reference: 0.302917D+04 0.302917D+04  1.00
 QES,  QES_reference:  0.302917D+04 0.302917D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7429822463908379E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4085954302767654E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4273292718163236E-005           OLP:   -1.4273292718163241E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9555075704291098E-006           OLP:   -4.9555075704291623E-006
  FINITE:
           OLP:   -9.5859373498519682E-004
           BORN:    4.1135043202571494E-003
  MOMENTA (Exyzm): 
           1   2406.7478156243774        0.0000000000000000        0.0000000000000000        2406.7478156243774        0.0000000000000000     
           2   2406.7478156243774       -0.0000000000000000       -0.0000000000000000       -2406.7478156243774        0.0000000000000000     
           3   2406.7478156243774       -1917.6577502184955       -579.54484998029659        1333.8484051424159        0.0000000000000000     
           4   2406.7478156243774        1917.6577502184955        579.54484998029659       -1333.8484051424159        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4273292718163236E-005           OLP:   -1.4273292718163241E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9555075704291107E-006           OLP:   -4.9555075704291623E-006
ABS integral  = 0.8943E-06  +/-  0.1882E-08  (   0.210 %)
Integral      = 0.5115E-06  +/-  0.2122E-08  (   0.415 %)
Virtual       = -.8871E-09  +/-  0.1042E-08  ( 117.447 %)
Virtual ratio = -.1955E+00  +/-  0.4133E-03  (   0.211 %)
ABS virtual   = 0.4841E-06  +/-  0.8166E-09  (   0.169 %)
Born          = 0.1921E-05  +/-  0.2659E-08  (   0.138 %)
V  2          = -.8871E-09  +/-  0.1042E-08  ( 117.447 %)
B  2          = 0.1921E-05  +/-  0.2659E-08  (   0.138 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8943E-06  +/-  0.1882E-08  (   0.210 %)
accumulated results Integral      = 0.5115E-06  +/-  0.2122E-08  (   0.415 %)
accumulated results Virtual       = -.8871E-09  +/-  0.1042E-08  ( 117.447 %)
accumulated results Virtual ratio = -.1955E+00  +/-  0.4133E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8166E-09  (   0.169 %)
accumulated results Born          = 0.1921E-05  +/-  0.2659E-08  (   0.138 %)
accumulated results V  2          = -.8871E-09  +/-  0.1042E-08  ( 117.447 %)
accumulated results B  2          = 0.1921E-05  +/-  0.2659E-08  (   0.138 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                           2               3                         4
channel    1 :     1 T   202753    23146  0.3247E-06  0.1846E-06  0.9831E+00
channel    2 :     1 T   209256    24358  0.3328E-06  0.1972E-06  0.8864E+00
channel    3 :     2 T    72212     8697  0.1166E-06  0.6215E-07  0.1000E+01
channel    4 :     2 T    75651     9333  0.1202E-06  0.6746E-07  0.8946E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9431167056659774E-007  +/-   1.8818918679750204E-009
 Final result:   5.1146107273778044E-007  +/-   2.1219825223997149E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408874
   Stability unknown:                                          0
   Stable PS point:                                       408874
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408874
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408874
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52845347    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.95489693    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.61230087    
 Time spent in Integrated_CT :    10.0877686    
 Time spent in Virtuals :    613.313110    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.79957867    
 Time spent in N1body_prefactor :   0.785840869    
 Time spent in Adding_alphas_pdf :    11.1470680    
 Time spent in Reweight_scale :    46.7943420    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.5271158    
 Time spent in Applying_cuts :    5.72361898    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    44.2007027    
 Time spent in Other_tasks :    24.9942627    
 Time spent in Total :    794.468994    
Time in seconds: 833



LOG file for integration channel /P0_uux_emep/all_G1_100, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25150
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      607507
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9065711767981865E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:         100
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      607507           1
 imode is           -1
channel    1 :     1 F        0    23146  0.3236E-04  0.0000E+00  0.9874E+00
channel    2 :     1 F        0    24358  0.3338E-04  0.0000E+00  0.9454E+00
channel    3 :     2 F        0     8697  0.1157E-04  0.0000E+00  0.9880E+00
channel    4 :     2 F        0     9333  0.1205E-04  0.0000E+00  0.8845E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       607507  -->       559872
Using random seed offsets:     0 ,      1 , 315700
  with seed                   48
 Ranmar initialization seeds       30233       24313
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.407525D+04 0.407525D+04  1.00
 muF1, muF1_reference: 0.407525D+04 0.407525D+04  1.00
 muF2, muF2_reference: 0.407525D+04 0.407525D+04  1.00
 QES,  QES_reference:  0.407525D+04 0.407525D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5254050928477034E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4065951054651483E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4278462290373738E-005           OLP:   -1.4278462290373719E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9461306658992971E-006           OLP:   -4.9461306658992463E-006
  FINITE:
           OLP:   -9.6070998840776863E-004
           BORN:    4.1149941697292839E-003
  MOMENTA (Exyzm): 
           1   2413.7336113025717        0.0000000000000000        0.0000000000000000        2413.7336113025717        0.0000000000000000     
           2   2413.7336113025717       -0.0000000000000000       -0.0000000000000000       -2413.7336113025717        0.0000000000000000     
           3   2413.7336113025717       -2008.5977496961098       -15.933763343250689        1338.4286090162598        0.0000000000000000     
           4   2413.7336113025717        2008.5977496961098        15.933763343250689       -1338.4286090162598        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4278462290373738E-005           OLP:   -1.4278462290373719E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9461306658992946E-006           OLP:   -4.9461306658992463E-006
ABS integral  = 0.8924E-06  +/-  0.1845E-08  (   0.207 %)
Integral      = 0.5185E-06  +/-  0.2085E-08  (   0.402 %)
Virtual       = 0.1032E-08  +/-  0.1039E-08  ( 100.671 %)
Virtual ratio = -.1954E+00  +/-  0.4130E-03  (   0.211 %)
ABS virtual   = 0.4828E-06  +/-  0.8146E-09  (   0.169 %)
Born          = 0.1917E-05  +/-  0.2657E-08  (   0.139 %)
V  2          = 0.1032E-08  +/-  0.1039E-08  ( 100.671 %)
B  2          = 0.1917E-05  +/-  0.2657E-08  (   0.139 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8924E-06  +/-  0.1845E-08  (   0.207 %)
accumulated results Integral      = 0.5185E-06  +/-  0.2085E-08  (   0.402 %)
accumulated results Virtual       = 0.1032E-08  +/-  0.1039E-08  ( 100.671 %)
accumulated results Virtual ratio = -.1954E+00  +/-  0.4130E-03  (   0.211 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8146E-09  (   0.169 %)
accumulated results Born          = 0.1917E-05  +/-  0.2657E-08  (   0.139 %)
accumulated results V  2          = 0.1032E-08  +/-  0.1039E-08  ( 100.671 %)
accumulated results B  2          = 0.1917E-05  +/-  0.2657E-08  (   0.139 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                      1                                                            2
  2:  0                             1                            2              3                         4
channel    1 :     1 T   202491    23146  0.3245E-06  0.1872E-06  0.1000E+01
channel    2 :     1 T   208645    24358  0.3328E-06  0.2005E-06  0.9016E+00
channel    3 :     2 T    72871     8697  0.1165E-06  0.6269E-07  0.9716E+00
channel    4 :     2 T    75868     9333  0.1186E-06  0.6817E-07  0.9165E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9235657057366993E-007  +/-   1.8449825768624470E-009
 Final result:   5.1846272368461298E-007  +/-   2.0847384421514145E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    408656
   Stability unknown:                                          0
   Stable PS point:                                       408656
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 408656
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       408656
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50762117    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.93554592    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.66982794    
 Time spent in Integrated_CT :    10.1140747    
 Time spent in Virtuals :    613.796265    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.81200600    
 Time spent in N1body_prefactor :   0.779648662    
 Time spent in Adding_alphas_pdf :    11.2074785    
 Time spent in Reweight_scale :    48.1698532    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.7010612    
 Time spent in Applying_cuts :    5.74612761    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    44.0468674    
 Time spent in Other_tasks :    25.2754517    
 Time spent in Total :    796.761841    
Time in seconds: 839



LOG file for integration channel /P0_ddx_emep/all_G1_1, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25219
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           1
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,   3157
  with seed                   48
 Ranmar initialization seeds       30233       12581
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.254063D+04 0.254063D+04  1.00
 muF1, muF1_reference: 0.254063D+04 0.254063D+04  1.00
 muF2, muF2_reference: 0.254063D+04 0.254063D+04  1.00
 QES,  QES_reference:  0.254063D+04 0.254063D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.8781359527523048E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3241328007771528E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8534139423567053E-006           OLP:   -6.8534139423567079E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6999236482533965E-005           OLP:   -1.6999236482534046E-005
  FINITE:
           OLP:   -3.7435572824611179E-004
           BORN:    2.5676634636572888E-003
  MOMENTA (Exyzm): 
           1   2723.9500794458550        0.0000000000000000        0.0000000000000000        2723.9500794458550        0.0000000000000000     
           2   2723.9500794458550       -0.0000000000000000       -0.0000000000000000       -2723.9500794458550        0.0000000000000000     
           3   2723.9500794458550       -1958.3008498923077       -468.95635944314586        1834.4050124119199        0.0000000000000000     
           4   2723.9500794458550        1958.3008498923077        468.95635944314586       -1834.4050124119199        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8534139423567053E-006           OLP:   -6.8534139423567079E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6999236482533965E-005           OLP:   -1.6999236482534046E-005
ABS integral  = 0.3934E-06  +/-  0.8892E-09  (   0.226 %)
Integral      = 0.2600E-06  +/-  0.9728E-09  (   0.374 %)
Virtual       = -.3705E-09  +/-  0.4815E-09  ( 129.972 %)
Virtual ratio = -.2881E+00  +/-  0.3860E-03  (   0.134 %)
ABS virtual   = 0.1845E-06  +/-  0.4137E-09  (   0.224 %)
Born          = 0.9514E-06  +/-  0.1609E-08  (   0.169 %)
V  2          = -.3705E-09  +/-  0.4815E-09  ( 129.972 %)
B  2          = 0.9514E-06  +/-  0.1609E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3934E-06  +/-  0.8892E-09  (   0.226 %)
accumulated results Integral      = 0.2600E-06  +/-  0.9728E-09  (   0.374 %)
accumulated results Virtual       = -.3705E-09  +/-  0.4815E-09  ( 129.972 %)
accumulated results Virtual ratio = -.2881E+00  +/-  0.3860E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1845E-06  +/-  0.4137E-09  (   0.224 %)
accumulated results Born          = 0.9514E-06  +/-  0.1609E-08  (   0.169 %)
accumulated results V  2          = -.3705E-09  +/-  0.4815E-09  ( 129.972 %)
accumulated results B  2          = 0.9514E-06  +/-  0.1609E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95344    11311  0.6701E-07  0.4250E-07  0.8030E+00
channel    2 :     1 T    96364    11643  0.6688E-07  0.4327E-07  0.8532E+00
channel    3 :     2 T   185023    21117  0.1309E-06  0.8634E-07  0.7281E+00
channel    4 :     2 T   183144    21463  0.1287E-06  0.8794E-07  0.8838E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9341855564734634E-007  +/-   8.8923298077438465E-010
 Final result:   2.6004578228514824E-007  +/-   9.7283279403736627E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348540
   Stability unknown:                                          0
   Stable PS point:                                       348540
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348540
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348540
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48527014    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.80553102    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.33216000    
 Time spent in Integrated_CT :    9.54656982    
 Time spent in Virtuals :    524.064087    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.48140717    
 Time spent in N1body_prefactor :   0.771591425    
 Time spent in Adding_alphas_pdf :    10.5147352    
 Time spent in Reweight_scale :    44.1291161    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9319830    
 Time spent in Applying_cuts :    5.54349899    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.8969193    
 Time spent in Other_tasks :    24.3877563    
 Time spent in Total :    697.890625    
Time in seconds: 716



LOG file for integration channel /P0_ddx_emep/all_G1_2, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25220
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           2
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,   6314
  with seed                   48
 Ranmar initialization seeds       30233       15738
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436589D+04 0.436589D+04  1.00
 muF1, muF1_reference: 0.436589D+04 0.436589D+04  1.00
 muF2, muF2_reference: 0.436589D+04 0.436589D+04  1.00
 QES,  QES_reference:  0.436589D+04 0.436589D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4766247451724124E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3236037175385085E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8597784644813067E-006           OLP:   -6.8597784644813059E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7026951637188311E-005           OLP:   -1.7026951637188399E-005
  FINITE:
           OLP:   -3.7391308738330764E-004
           BORN:    2.5700479615236699E-003
  MOMENTA (Exyzm): 
           1   2726.0885278176288        0.0000000000000000        0.0000000000000000        2726.0885278176288        0.0000000000000000     
           2   2726.0885278176288       -0.0000000000000000       -0.0000000000000000       -2726.0885278176288        0.0000000000000000     
           3   2726.0885278176288       -2010.7886086542810       -100.18544712114657        1838.0018250780395        0.0000000000000000     
           4   2726.0885278176288        2010.7886086542810        100.18544712114657       -1838.0018250780395        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8597784644813067E-006           OLP:   -6.8597784644813059E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7026951637188311E-005           OLP:   -1.7026951637188399E-005
ABS integral  = 0.3935E-06  +/-  0.8784E-09  (   0.223 %)
Integral      = 0.2603E-06  +/-  0.9628E-09  (   0.370 %)
Virtual       = 0.1130E-10  +/-  0.4788E-09  ( ******* %)
Virtual ratio = -.2873E+00  +/-  0.3864E-03  (   0.134 %)
ABS virtual   = 0.1840E-06  +/-  0.4108E-09  (   0.223 %)
Born          = 0.9510E-06  +/-  0.1609E-08  (   0.169 %)
V  2          = 0.1130E-10  +/-  0.4788E-09  ( ******* %)
B  2          = 0.9510E-06  +/-  0.1609E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3935E-06  +/-  0.8784E-09  (   0.223 %)
accumulated results Integral      = 0.2603E-06  +/-  0.9628E-09  (   0.370 %)
accumulated results Virtual       = 0.1130E-10  +/-  0.4788E-09  ( ******* %)
accumulated results Virtual ratio = -.2873E+00  +/-  0.3864E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1840E-06  +/-  0.4108E-09  (   0.223 %)
accumulated results Born          = 0.9510E-06  +/-  0.1609E-08  (   0.169 %)
accumulated results V  2          = 0.1130E-10  +/-  0.4788E-09  ( ******* %)
accumulated results B  2          = 0.9510E-06  +/-  0.1609E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95745    11311  0.6721E-07  0.4270E-07  0.8104E+00
channel    2 :     1 T    96132    11643  0.6701E-07  0.4351E-07  0.8960E+00
channel    3 :     2 T   185202    21117  0.1312E-06  0.8675E-07  0.7187E+00
channel    4 :     2 T   182795    21463  0.1280E-06  0.8738E-07  0.8785E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9347918704741999E-007  +/-   8.7839394424818753E-010
 Final result:   2.6034367472294146E-007  +/-   9.6283571010896747E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348528
   Stability unknown:                                          0
   Stable PS point:                                       348528
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348528
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348528
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.47308517    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.75459671    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.38041592    
 Time spent in Integrated_CT :    9.53936768    
 Time spent in Virtuals :    524.732483    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.48067856    
 Time spent in N1body_prefactor :   0.762620330    
 Time spent in Adding_alphas_pdf :    10.5607300    
 Time spent in Reweight_scale :    43.9316940    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8664417    
 Time spent in Applying_cuts :    5.60468197    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.9523468    
 Time spent in Other_tasks :    24.4761353    
 Time spent in Total :    698.515259    
Time in seconds: 716



LOG file for integration channel /P0_ddx_emep/all_G1_3, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25218
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           3
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,   9471
  with seed                   48
 Ranmar initialization seeds       30233       18895
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.277451D+04 0.277451D+04  1.00
 muF1, muF1_reference: 0.277451D+04 0.277451D+04  1.00
 muF2, muF2_reference: 0.277451D+04 0.277451D+04  1.00
 QES,  QES_reference:  0.277451D+04 0.277451D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.8098870294695380E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3505068459733813E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5871541318260146E-006           OLP:   -6.5871541318260146E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5873257504637204E-005           OLP:   -1.5873257504637156E-005
  FINITE:
           OLP:   -3.8799857734818030E-004
           BORN:    2.4679079851337086E-003
  MOMENTA (Exyzm): 
           1   2619.8314330010012        0.0000000000000000        0.0000000000000000        2619.8314330010012        0.0000000000000000     
           2   2619.8314330010012       -0.0000000000000000       -0.0000000000000000       -2619.8314330010012        0.0000000000000000     
           3   2619.8314330010012       -2001.5204565009494       -215.58985081786346        1676.5898770339279        0.0000000000000000     
           4   2619.8314330010012        2001.5204565009494        215.58985081786346       -1676.5898770339279        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5871541318260146E-006           OLP:   -6.5871541318260146E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5873257504637204E-005           OLP:   -1.5873257504637156E-005
ABS integral  = 0.3940E-06  +/-  0.8445E-09  (   0.214 %)
Integral      = 0.2607E-06  +/-  0.9322E-09  (   0.358 %)
Virtual       = 0.2408E-09  +/-  0.4854E-09  ( 201.575 %)
Virtual ratio = -.2871E+00  +/-  0.3860E-03  (   0.134 %)
ABS virtual   = 0.1844E-06  +/-  0.4182E-09  (   0.227 %)
Born          = 0.9521E-06  +/-  0.1612E-08  (   0.169 %)
V  2          = 0.2408E-09  +/-  0.4854E-09  ( 201.575 %)
B  2          = 0.9521E-06  +/-  0.1612E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3940E-06  +/-  0.8445E-09  (   0.214 %)
accumulated results Integral      = 0.2607E-06  +/-  0.9322E-09  (   0.358 %)
accumulated results Virtual       = 0.2408E-09  +/-  0.4854E-09  ( 201.575 %)
accumulated results Virtual ratio = -.2871E+00  +/-  0.3860E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1844E-06  +/-  0.4182E-09  (   0.227 %)
accumulated results Born          = 0.9521E-06  +/-  0.1612E-08  (   0.169 %)
accumulated results V  2          = 0.2408E-09  +/-  0.4854E-09  ( 201.575 %)
accumulated results B  2          = 0.9521E-06  +/-  0.1612E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95446    11311  0.6743E-07  0.4272E-07  0.8587E+00
channel    2 :     1 T    95915    11643  0.6773E-07  0.4443E-07  0.9092E+00
channel    3 :     2 T   185324    21117  0.1305E-06  0.8567E-07  0.7492E+00
channel    4 :     2 T   183186    21463  0.1283E-06  0.8784E-07  0.9266E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9395371595621468E-007  +/-   8.4447650020185408E-010
 Final result:   2.6066270870568875E-007  +/-   9.3219512854977513E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348894
   Stability unknown:                                          0
   Stable PS point:                                       348894
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348894
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348894
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50427938    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.82096672    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.43575239    
 Time spent in Integrated_CT :    9.58038330    
 Time spent in Virtuals :    526.041504    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.50454330    
 Time spent in N1body_prefactor :   0.767340362    
 Time spent in Adding_alphas_pdf :    10.5356445    
 Time spent in Reweight_scale :    43.9155235    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0589809    
 Time spent in Applying_cuts :    5.64056492    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.0682373    
 Time spent in Other_tasks :    24.5256348    
 Time spent in Total :    700.399292    
Time in seconds: 717



LOG file for integration channel /P0_ddx_emep/all_G1_4, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25217
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           4
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  12628
  with seed                   48
 Ranmar initialization seeds       30233       22052
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.450416D+04 0.450416D+04  1.00
 muF1, muF1_reference: 0.450416D+04 0.450416D+04  1.00
 muF2, muF2_reference: 0.450416D+04 0.450416D+04  1.00
 QES,  QES_reference:  0.450416D+04 0.450416D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4547500223126964E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3498072471891232E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5542028438721781E-006           OLP:   -6.5542028438721781E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5738277024836868E-005           OLP:   -1.5738277024837088E-005
  FINITE:
           OLP:   -3.9103236743584372E-004
           BORN:    2.4555626315812830E-003
  MOMENTA (Exyzm): 
           1   2622.5315681662801        0.0000000000000000        0.0000000000000000        2622.5315681662801        0.0000000000000000     
           2   2622.5315681662801       -0.0000000000000000       -0.0000000000000000       -2622.5315681662801        0.0000000000000000     
           3   2622.5315681662801       -1926.3337065527535       -622.03948955044643        1667.3263479196983        0.0000000000000000     
           4   2622.5315681662801        1926.3337065527535        622.03948955044643       -1667.3263479196983        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5542028438721781E-006           OLP:   -6.5542028438721781E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5738277024836868E-005           OLP:   -1.5738277024837088E-005
ABS integral  = 0.3940E-06  +/-  0.8969E-09  (   0.228 %)
Integral      = 0.2594E-06  +/-  0.9806E-09  (   0.378 %)
Virtual       = -.6569E-09  +/-  0.4802E-09  (  73.098 %)
Virtual ratio = -.2883E+00  +/-  0.3856E-03  (   0.134 %)
ABS virtual   = 0.1839E-06  +/-  0.4125E-09  (   0.224 %)
Born          = 0.9517E-06  +/-  0.1599E-08  (   0.168 %)
V  2          = -.6569E-09  +/-  0.4802E-09  (  73.098 %)
B  2          = 0.9517E-06  +/-  0.1599E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3940E-06  +/-  0.8969E-09  (   0.228 %)
accumulated results Integral      = 0.2594E-06  +/-  0.9806E-09  (   0.378 %)
accumulated results Virtual       = -.6569E-09  +/-  0.4802E-09  (  73.098 %)
accumulated results Virtual ratio = -.2883E+00  +/-  0.3856E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1839E-06  +/-  0.4125E-09  (   0.224 %)
accumulated results Born          = 0.9517E-06  +/-  0.1599E-08  (   0.168 %)
accumulated results V  2          = -.6569E-09  +/-  0.4802E-09  (  73.098 %)
accumulated results B  2          = 0.9517E-06  +/-  0.1599E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95655    11311  0.6740E-07  0.4167E-07  0.7518E+00
channel    2 :     1 T    96366    11643  0.6776E-07  0.4433E-07  0.8784E+00
channel    3 :     2 T   185091    21117  0.1311E-06  0.8603E-07  0.7333E+00
channel    4 :     2 T   182758    21463  0.1278E-06  0.8733E-07  0.8696E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9401124088960770E-007  +/-   8.9687932917810251E-010
 Final result:   2.5936364867228101E-007  +/-   9.8057498289516162E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348919
   Stability unknown:                                          0
   Stable PS point:                                       348919
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348919
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348919
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50134122    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.85552406    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.46452093    
 Time spent in Integrated_CT :    9.59753418    
 Time spent in Virtuals :    527.315552    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.51840115    
 Time spent in N1body_prefactor :   0.775781512    
 Time spent in Adding_alphas_pdf :    10.5703745    
 Time spent in Reweight_scale :    43.7938309    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9618864    
 Time spent in Applying_cuts :    5.67818737    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.0306625    
 Time spent in Other_tasks :    24.6461792    
 Time spent in Total :    701.709717    
Time in seconds: 717



LOG file for integration channel /P0_ddx_emep/all_G1_5, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25438
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           5
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  15785
  with seed                   48
 Ranmar initialization seeds       30233       25209
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422533D+04 0.422533D+04  1.00
 muF1, muF1_reference: 0.422533D+04 0.422533D+04  1.00
 muF2, muF2_reference: 0.422533D+04 0.422533D+04  1.00
 QES,  QES_reference:  0.422533D+04 0.422533D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4997200474441209E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3301521204339831E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6397940021061032E-006           OLP:   -6.6397940021061057E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6091049314406090E-005           OLP:   -1.6091049314406216E-005
  FINITE:
           OLP:   -3.9241837422906891E-004
           BORN:    2.4876297577840507E-003
  MOMENTA (Exyzm): 
           1   2699.7607881958279        0.0000000000000000        0.0000000000000000        2699.7607881958279        0.0000000000000000     
           2   2699.7607881958279       -0.0000000000000000       -0.0000000000000000       -2699.7607881958279        0.0000000000000000     
           3   2699.7607881958279       -1991.6617379483689       -523.60448127562574        1745.8035921203518        0.0000000000000000     
           4   2699.7607881958279        1991.6617379483689        523.60448127562574       -1745.8035921203518        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6397940021061032E-006           OLP:   -6.6397940021061057E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6091049314406090E-005           OLP:   -1.6091049314406216E-005
ABS integral  = 0.3944E-06  +/-  0.8796E-09  (   0.223 %)
Integral      = 0.2598E-06  +/-  0.9649E-09  (   0.371 %)
Virtual       = 0.1245E-08  +/-  0.4889E-09  (  39.254 %)
Virtual ratio = -.2870E+00  +/-  0.3874E-03  (   0.135 %)
ABS virtual   = 0.1848E-06  +/-  0.4219E-09  (   0.228 %)
Born          = 0.9509E-06  +/-  0.1605E-08  (   0.169 %)
V  2          = 0.1245E-08  +/-  0.4889E-09  (  39.254 %)
B  2          = 0.9509E-06  +/-  0.1605E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3944E-06  +/-  0.8796E-09  (   0.223 %)
accumulated results Integral      = 0.2598E-06  +/-  0.9649E-09  (   0.371 %)
accumulated results Virtual       = 0.1245E-08  +/-  0.4889E-09  (  39.254 %)
accumulated results Virtual ratio = -.2870E+00  +/-  0.3874E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1848E-06  +/-  0.4219E-09  (   0.228 %)
accumulated results Born          = 0.9509E-06  +/-  0.1605E-08  (   0.169 %)
accumulated results V  2          = 0.1245E-08  +/-  0.4889E-09  (  39.254 %)
accumulated results B  2          = 0.9509E-06  +/-  0.1605E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95419    11311  0.6754E-07  0.4222E-07  0.8313E+00
channel    2 :     1 T    96323    11643  0.6713E-07  0.4318E-07  0.8750E+00
channel    3 :     2 T   184771    21117  0.1307E-06  0.8567E-07  0.7215E+00
channel    4 :     2 T   183357    21463  0.1291E-06  0.8872E-07  0.9234E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9443593140251052E-007  +/-   8.7961521997190834E-010
 Final result:   2.5978042985595616E-007  +/-   9.6491933073009021E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348464
   Stability unknown:                                          0
   Stable PS point:                                       348464
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348464
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348464
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49700928    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.80474758    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.39375353    
 Time spent in Integrated_CT :    9.51940918    
 Time spent in Virtuals :    526.283508    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.58008862    
 Time spent in N1body_prefactor :   0.829476833    
 Time spent in Adding_alphas_pdf :    10.5390606    
 Time spent in Reweight_scale :    43.9216919    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.1720896    
 Time spent in Applying_cuts :    5.60233402    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.3533554    
 Time spent in Other_tasks :    24.8189697    
 Time spent in Total :    701.315491    
Time in seconds: 712



LOG file for integration channel /P0_ddx_emep/all_G1_6, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25453
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           6
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  18942
  with seed                   48
 Ranmar initialization seeds       30233       28366
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431482D+04 0.431482D+04  1.00
 muF1, muF1_reference: 0.431482D+04 0.431482D+04  1.00
 muF2, muF2_reference: 0.431482D+04 0.431482D+04  1.00
 QES,  QES_reference:  0.431482D+04 0.431482D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4849132627951065E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3273065012206165E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8633454622348415E-006           OLP:   -6.8633454622348348E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7042449736748870E-005           OLP:   -1.7042449736748887E-005
  FINITE:
           OLP:   -3.7187984806909909E-004
           BORN:    2.5713843538507251E-003
  MOMENTA (Exyzm): 
           1   2711.1643126028716        0.0000000000000000        0.0000000000000000        2711.1643126028716        0.0000000000000000     
           2   2711.1643126028716       -0.0000000000000000       -0.0000000000000000       -2711.1643126028716        0.0000000000000000     
           3   2711.1643126028716       -1688.4653748347275       -1074.1384615289908        1829.1318086403064        0.0000000000000000     
           4   2711.1643126028716        1688.4653748347275        1074.1384615289908       -1829.1318086403064        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8633454622348415E-006           OLP:   -6.8633454622348348E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7042449736748870E-005           OLP:   -1.7042449736748887E-005
ABS integral  = 0.3943E-06  +/-  0.8758E-09  (   0.222 %)
Integral      = 0.2611E-06  +/-  0.9607E-09  (   0.368 %)
Virtual       = 0.7107E-09  +/-  0.4880E-09  (  68.665 %)
Virtual ratio = -.2870E+00  +/-  0.3861E-03  (   0.135 %)
ABS virtual   = 0.1847E-06  +/-  0.4210E-09  (   0.228 %)
Born          = 0.9521E-06  +/-  0.1610E-08  (   0.169 %)
V  2          = 0.7107E-09  +/-  0.4880E-09  (  68.665 %)
B  2          = 0.9521E-06  +/-  0.1610E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3943E-06  +/-  0.8758E-09  (   0.222 %)
accumulated results Integral      = 0.2611E-06  +/-  0.9607E-09  (   0.368 %)
accumulated results Virtual       = 0.7107E-09  +/-  0.4880E-09  (  68.665 %)
accumulated results Virtual ratio = -.2870E+00  +/-  0.3861E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1847E-06  +/-  0.4210E-09  (   0.228 %)
accumulated results Born          = 0.9521E-06  +/-  0.1610E-08  (   0.169 %)
accumulated results V  2          = 0.7107E-09  +/-  0.4880E-09  (  68.665 %)
accumulated results B  2          = 0.9521E-06  +/-  0.1610E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95745    11311  0.6761E-07  0.4312E-07  0.8252E+00
channel    2 :     1 T    96729    11643  0.6780E-07  0.4395E-07  0.8845E+00
channel    3 :     2 T   184428    21117  0.1301E-06  0.8589E-07  0.7301E+00
channel    4 :     2 T   182974    21463  0.1287E-06  0.8818E-07  0.9165E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9425558845241165E-007  +/-   8.7579778110938998E-010
 Final result:   2.6112997275015526E-007  +/-   9.6065522222858264E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348746
   Stability unknown:                                          0
   Stable PS point:                                       348746
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348746
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348746
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50072861    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.84901524    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.40937996    
 Time spent in Integrated_CT :    9.56622314    
 Time spent in Virtuals :    527.023682    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.53995132    
 Time spent in N1body_prefactor :   0.781927943    
 Time spent in Adding_alphas_pdf :    10.5644150    
 Time spent in Reweight_scale :    44.0510788    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.1771679    
 Time spent in Applying_cuts :    5.67625141    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.0800476    
 Time spent in Other_tasks :    24.6693115    
 Time spent in Total :    701.889160    
Time in seconds: 712



LOG file for integration channel /P0_ddx_emep/all_G1_7, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25437
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           7
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  22099
  with seed                   48
 Ranmar initialization seeds       30233        1442
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.451724D+04 0.451724D+04  1.00
 muF1, muF1_reference: 0.451724D+04 0.451724D+04  1.00
 muF2, muF2_reference: 0.451724D+04 0.451724D+04  1.00
 QES,  QES_reference:  0.451724D+04 0.451724D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4527215000682101E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3454394309868748E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6257348807765389E-006           OLP:   -6.6257348807765355E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6032531329388952E-005           OLP:   -1.6032531329389210E-005
  FINITE:
           OLP:   -3.8690982385326301E-004
           BORN:    2.4823624424762823E-003
  MOMENTA (Exyzm): 
           1   2639.4643690978082        0.0000000000000000        0.0000000000000000        2639.4643690978082        0.0000000000000000     
           2   2639.4643690978082       -0.0000000000000000       -0.0000000000000000       -2639.4643690978082        0.0000000000000000     
           3   2639.4643690978082       -1566.9285294362985       -1270.6006122941758        1702.0814385372855        0.0000000000000000     
           4   2639.4643690978082        1566.9285294362985        1270.6006122941758       -1702.0814385372855        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6257348807765389E-006           OLP:   -6.6257348807765355E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6032531329388952E-005           OLP:   -1.6032531329389210E-005
ABS integral  = 0.3930E-06  +/-  0.8890E-09  (   0.226 %)
Integral      = 0.2593E-06  +/-  0.9727E-09  (   0.375 %)
Virtual       = -.3036E-09  +/-  0.4851E-09  ( 159.785 %)
Virtual ratio = -.2877E+00  +/-  0.3863E-03  (   0.134 %)
ABS virtual   = 0.1841E-06  +/-  0.4181E-09  (   0.227 %)
Born          = 0.9509E-06  +/-  0.1603E-08  (   0.169 %)
V  2          = -.3036E-09  +/-  0.4851E-09  ( 159.785 %)
B  2          = 0.9509E-06  +/-  0.1603E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3930E-06  +/-  0.8890E-09  (   0.226 %)
accumulated results Integral      = 0.2593E-06  +/-  0.9727E-09  (   0.375 %)
accumulated results Virtual       = -.3036E-09  +/-  0.4851E-09  ( 159.785 %)
accumulated results Virtual ratio = -.2877E+00  +/-  0.3863E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1841E-06  +/-  0.4181E-09  (   0.227 %)
accumulated results Born          = 0.9509E-06  +/-  0.1603E-08  (   0.169 %)
accumulated results V  2          = -.3036E-09  +/-  0.4851E-09  ( 159.785 %)
accumulated results B  2          = 0.9509E-06  +/-  0.1603E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    94917    11311  0.6725E-07  0.4281E-07  0.8705E+00
channel    2 :     1 T    96230    11643  0.6705E-07  0.4272E-07  0.8191E+00
channel    3 :     2 T   185265    21117  0.1300E-06  0.8538E-07  0.7106E+00
channel    4 :     2 T   183465    21463  0.1287E-06  0.8843E-07  0.9078E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9304510270153647E-007  +/-   8.8901111257007208E-010
 Final result:   2.5934474329371343E-007  +/-   9.7269464005363591E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348323
   Stability unknown:                                          0
   Stable PS point:                                       348323
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348323
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348323
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49461162    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.81697369    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.29083824    
 Time spent in Integrated_CT :    9.34753418    
 Time spent in Virtuals :    525.708252    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.59414291    
 Time spent in N1body_prefactor :   0.776091576    
 Time spent in Adding_alphas_pdf :    10.6117830    
 Time spent in Reweight_scale :    44.5773163    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5095062    
 Time spent in Applying_cuts :    5.41402435    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.0132103    
 Time spent in Other_tasks :    23.8634033    
 Time spent in Total :    699.017578    
Time in seconds: 709



LOG file for integration channel /P0_ddx_emep/all_G1_8, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25431
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           8
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  25256
  with seed                   48
 Ranmar initialization seeds       30233        4599
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435411D+04 0.435411D+04  1.00
 muF1, muF1_reference: 0.435411D+04 0.435411D+04  1.00
 muF2, muF2_reference: 0.435411D+04 0.435411D+04  1.00
 QES,  QES_reference:  0.435411D+04 0.435411D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4785255496015113E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3282148442110354E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7882956093366511E-006           OLP:   -6.7882956093366502E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6717915164994367E-005           OLP:   -1.6717915164994550E-005
  FINITE:
           OLP:   -3.7927444179267940E-004
           BORN:    2.5432665768040826E-003
  MOMENTA (Exyzm): 
           1   2707.5180217021748        0.0000000000000000        0.0000000000000000        2707.5180217021748        0.0000000000000000     
           2   2707.5180217021748       -0.0000000000000000       -0.0000000000000000       -2707.5180217021748        0.0000000000000000     
           3   2707.5180217021748       -969.10585307940948       -1773.8604609881961        1801.3624699965389        0.0000000000000000     
           4   2707.5180217021748        969.10585307940948        1773.8604609881961       -1801.3624699965389        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7882956093366511E-006           OLP:   -6.7882956093366502E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6717915164994370E-005           OLP:   -1.6717915164994550E-005
ABS integral  = 0.3936E-06  +/-  0.8797E-09  (   0.223 %)
Integral      = 0.2605E-06  +/-  0.9640E-09  (   0.370 %)
Virtual       = 0.3617E-09  +/-  0.4857E-09  ( 134.286 %)
Virtual ratio = -.2872E+00  +/-  0.3858E-03  (   0.134 %)
ABS virtual   = 0.1845E-06  +/-  0.4184E-09  (   0.227 %)
Born          = 0.9515E-06  +/-  0.1615E-08  (   0.170 %)
V  2          = 0.3617E-09  +/-  0.4857E-09  ( 134.286 %)
B  2          = 0.9515E-06  +/-  0.1615E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3936E-06  +/-  0.8797E-09  (   0.223 %)
accumulated results Integral      = 0.2605E-06  +/-  0.9640E-09  (   0.370 %)
accumulated results Virtual       = 0.3617E-09  +/-  0.4857E-09  ( 134.286 %)
accumulated results Virtual ratio = -.2872E+00  +/-  0.3858E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1845E-06  +/-  0.4184E-09  (   0.227 %)
accumulated results Born          = 0.9515E-06  +/-  0.1615E-08  (   0.170 %)
accumulated results V  2          = 0.3617E-09  +/-  0.4857E-09  ( 134.286 %)
accumulated results B  2          = 0.9515E-06  +/-  0.1615E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95627    11311  0.6741E-07  0.4257E-07  0.8282E+00
channel    2 :     1 T    96230    11643  0.6701E-07  0.4353E-07  0.8960E+00
channel    3 :     2 T   184863    21117  0.1301E-06  0.8585E-07  0.7464E+00
channel    4 :     2 T   183151    21463  0.1291E-06  0.8857E-07  0.8723E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9362274677804768E-007  +/-   8.7969190206615735E-010
 Final result:   2.6052171767080535E-007  +/-   9.6403875041069055E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348577
   Stability unknown:                                          0
   Stable PS point:                                       348577
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348577
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348577
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52701485    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.88252878    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.33381081    
 Time spent in Integrated_CT :    9.44085693    
 Time spent in Virtuals :    529.412292    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.67412376    
 Time spent in N1body_prefactor :   0.759941936    
 Time spent in Adding_alphas_pdf :    10.5998392    
 Time spent in Reweight_scale :    44.6941376    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.1921110    
 Time spent in Applying_cuts :    5.41934824    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.4526978    
 Time spent in Other_tasks :    24.4963989    
 Time spent in Total :    704.885193    
Time in seconds: 713



LOG file for integration channel /P0_ddx_emep/all_G1_9, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25441
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           9
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  28413
  with seed                   48
 Ranmar initialization seeds       30233        7756
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411028D+04 0.411028D+04  1.00
 muF1, muF1_reference: 0.411028D+04 0.411028D+04  1.00
 muF2, muF2_reference: 0.411028D+04 0.411028D+04  1.00
 QES,  QES_reference:  0.411028D+04 0.411028D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5193110107855607E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3331796115461229E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7906952319817783E-006           OLP:   -6.7906952319817876E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6728145710797144E-005           OLP:   -1.6728145710797127E-005
  FINITE:
           OLP:   -3.7682843000280751E-004
           BORN:    2.5441656066079554E-003
  MOMENTA (Exyzm): 
           1   2687.6908805076878        0.0000000000000000        0.0000000000000000        2687.6908805076878        0.0000000000000000     
           2   2687.6908805076878       -0.0000000000000000       -0.0000000000000000       -2687.6908805076878        0.0000000000000000     
           3   2687.6908805076878       -1724.6147577945026       -1024.2021344303948        1788.9651182149482        0.0000000000000000     
           4   2687.6908805076878        1724.6147577945026        1024.2021344303948       -1788.9651182149482        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7906952319817783E-006           OLP:   -6.7906952319817876E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6728145710797144E-005           OLP:   -1.6728145710797127E-005
ABS integral  = 0.3933E-06  +/-  0.8864E-09  (   0.225 %)
Integral      = 0.2590E-06  +/-  0.9706E-09  (   0.375 %)
Virtual       = -.7436E-09  +/-  0.4842E-09  (  65.114 %)
Virtual ratio = -.2879E+00  +/-  0.3863E-03  (   0.134 %)
ABS virtual   = 0.1841E-06  +/-  0.4170E-09  (   0.226 %)
Born          = 0.9513E-06  +/-  0.1608E-08  (   0.169 %)
V  2          = -.7436E-09  +/-  0.4842E-09  (  65.114 %)
B  2          = 0.9513E-06  +/-  0.1608E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3933E-06  +/-  0.8864E-09  (   0.225 %)
accumulated results Integral      = 0.2590E-06  +/-  0.9706E-09  (   0.375 %)
accumulated results Virtual       = -.7436E-09  +/-  0.4842E-09  (  65.114 %)
accumulated results Virtual ratio = -.2879E+00  +/-  0.3863E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1841E-06  +/-  0.4170E-09  (   0.226 %)
accumulated results Born          = 0.9513E-06  +/-  0.1608E-08  (   0.169 %)
accumulated results V  2          = -.7436E-09  +/-  0.4842E-09  (  65.114 %)
accumulated results B  2          = 0.9513E-06  +/-  0.1608E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95385    11311  0.6710E-07  0.4237E-07  0.8172E+00
channel    2 :     1 T    96253    11643  0.6785E-07  0.4409E-07  0.8808E+00
channel    3 :     2 T   185127    21117  0.1299E-06  0.8517E-07  0.7587E+00
channel    4 :     2 T   183107    21463  0.1284E-06  0.8737E-07  0.8500E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9331575098456894E-007  +/-   8.8636623862568213E-010
 Final result:   2.5899802192589272E-007  +/-   9.7063914604571851E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348677
   Stability unknown:                                          0
   Stable PS point:                                       348677
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348677
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348677
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54460573    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.77825260    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.40995026    
 Time spent in Integrated_CT :    9.58465576    
 Time spent in Virtuals :    525.557861    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.51086235    
 Time spent in N1body_prefactor :   0.752416968    
 Time spent in Adding_alphas_pdf :    10.4539518    
 Time spent in Reweight_scale :    43.7065544    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.1285667    
 Time spent in Applying_cuts :    5.55665302    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.7651520    
 Time spent in Other_tasks :    24.4911499    
 Time spent in Total :    699.240601    
Time in seconds: 709



LOG file for integration channel /P0_ddx_emep/all_G1_10, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25445
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          10
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  31570
  with seed                   48
 Ranmar initialization seeds       30233       10913
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.377098D+04 0.377098D+04  1.00
 muF1, muF1_reference: 0.377098D+04 0.377098D+04  1.00
 muF2, muF2_reference: 0.377098D+04 0.377098D+04  1.00
 QES,  QES_reference:  0.377098D+04 0.377098D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5811069629288436E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3455296283542790E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6654695536799226E-006           OLP:   -6.6654695536799226E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6197838759198294E-005           OLP:   -1.6197838759198433E-005
  FINITE:
           OLP:   -3.8334574986669765E-004
           BORN:    2.4972492228039433E-003
  MOMENTA (Exyzm): 
           1   2639.1133874538136        0.0000000000000000        0.0000000000000000        2639.1133874538136        0.0000000000000000     
           2   2639.1133874538136       -0.0000000000000000       -0.0000000000000000       -2639.1133874538136        0.0000000000000000     
           3   2639.1133874538136       -1964.3670123441427       -405.68012800402079        1715.1108845770677        0.0000000000000000     
           4   2639.1133874538136        1964.3670123441427        405.68012800402079       -1715.1108845770677        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6654695536799226E-006           OLP:   -6.6654695536799226E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6197838759198294E-005           OLP:   -1.6197838759198433E-005
ABS integral  = 0.3935E-06  +/-  0.9049E-09  (   0.230 %)
Integral      = 0.2599E-06  +/-  0.9873E-09  (   0.380 %)
Virtual       = 0.1183E-09  +/-  0.4888E-09  ( 413.082 %)
Virtual ratio = -.2873E+00  +/-  0.3859E-03  (   0.134 %)
ABS virtual   = 0.1844E-06  +/-  0.4221E-09  (   0.229 %)
Born          = 0.9536E-06  +/-  0.1630E-08  (   0.171 %)
V  2          = 0.1183E-09  +/-  0.4888E-09  ( 413.082 %)
B  2          = 0.9536E-06  +/-  0.1630E-08  (   0.171 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3935E-06  +/-  0.9049E-09  (   0.230 %)
accumulated results Integral      = 0.2599E-06  +/-  0.9873E-09  (   0.380 %)
accumulated results Virtual       = 0.1183E-09  +/-  0.4888E-09  ( 413.082 %)
accumulated results Virtual ratio = -.2873E+00  +/-  0.3859E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1844E-06  +/-  0.4221E-09  (   0.229 %)
accumulated results Born          = 0.9536E-06  +/-  0.1630E-08  (   0.171 %)
accumulated results V  2          = 0.1183E-09  +/-  0.4888E-09  ( 413.082 %)
accumulated results B  2          = 0.9536E-06  +/-  0.1630E-08  (   0.171 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95723    11311  0.6723E-07  0.4273E-07  0.8679E+00
channel    2 :     1 T    95796    11643  0.6727E-07  0.4372E-07  0.8887E+00
channel    3 :     2 T   184405    21117  0.1290E-06  0.8477E-07  0.7176E+00
channel    4 :     2 T   183943    21463  0.1300E-06  0.8868E-07  0.8494E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9350045239317239E-007  +/-   9.0493714885863841E-010
 Final result:   2.5990261629934515E-007  +/-   9.8733361136283413E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    349073
   Stability unknown:                                          0
   Stable PS point:                                       349073
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 349073
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       349073
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49071348    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.86323643    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.38987684    
 Time spent in Integrated_CT :    9.62371826    
 Time spent in Virtuals :    526.278870    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.62806988    
 Time spent in N1body_prefactor :   0.781825423    
 Time spent in Adding_alphas_pdf :    10.5837727    
 Time spent in Reweight_scale :    44.4309769    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9819126    
 Time spent in Applying_cuts :    5.53866577    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.9821358    
 Time spent in Other_tasks :    24.6201782    
 Time spent in Total :    701.193970    
Time in seconds: 712



LOG file for integration channel /P0_ddx_emep/all_G1_11, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25444
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          11
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  34727
  with seed                   48
 Ranmar initialization seeds       30233       14070
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.448355D+04 0.448355D+04  1.00
 muF1, muF1_reference: 0.448355D+04 0.448355D+04  1.00
 muF2, muF2_reference: 0.448355D+04 0.448355D+04  1.00
 QES,  QES_reference:  0.448355D+04 0.448355D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4579588794506407E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3297414266687774E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7522469505934615E-006           OLP:   -6.7522469505934607E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6563900096545672E-005           OLP:   -1.6563900096545905E-005
  FINITE:
           OLP:   -3.8216614530766518E-004
           BORN:    2.5297607788547310E-003
  MOMENTA (Exyzm): 
           1   2701.4030808725875        0.0000000000000000        0.0000000000000000        2701.4030808725875        0.0000000000000000     
           2   2701.4030808725875       -0.0000000000000000       -0.0000000000000000       -2701.4030808725875        0.0000000000000000     
           3   2701.4030808725875       -1607.5963409921619       -1235.5587983706566        1785.1070179530916        0.0000000000000000     
           4   2701.4030808725875        1607.5963409921619        1235.5587983706566       -1785.1070179530916        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7522469505934615E-006           OLP:   -6.7522469505934607E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6563900096545672E-005           OLP:   -1.6563900096545905E-005
ABS integral  = 0.3941E-06  +/-  0.8631E-09  (   0.219 %)
Integral      = 0.2614E-06  +/-  0.9488E-09  (   0.363 %)
Virtual       = 0.8455E-09  +/-  0.4853E-09  (  57.397 %)
Virtual ratio = -.2871E+00  +/-  0.3867E-03  (   0.135 %)
ABS virtual   = 0.1846E-06  +/-  0.4179E-09  (   0.226 %)
Born          = 0.9508E-06  +/-  0.1598E-08  (   0.168 %)
V  2          = 0.8455E-09  +/-  0.4853E-09  (  57.397 %)
B  2          = 0.9508E-06  +/-  0.1598E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3941E-06  +/-  0.8631E-09  (   0.219 %)
accumulated results Integral      = 0.2614E-06  +/-  0.9488E-09  (   0.363 %)
accumulated results Virtual       = 0.8455E-09  +/-  0.4853E-09  (  57.397 %)
accumulated results Virtual ratio = -.2871E+00  +/-  0.3867E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1846E-06  +/-  0.4179E-09  (   0.226 %)
accumulated results Born          = 0.9508E-06  +/-  0.1598E-08  (   0.168 %)
accumulated results V  2          = 0.8455E-09  +/-  0.4853E-09  (  57.397 %)
accumulated results B  2          = 0.9508E-06  +/-  0.1598E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95360    11311  0.6738E-07  0.4301E-07  0.8876E+00
channel    2 :     1 T    96600    11643  0.6787E-07  0.4413E-07  0.8916E+00
channel    3 :     2 T   185026    21117  0.1299E-06  0.8521E-07  0.7114E+00
channel    4 :     2 T   182886    21463  0.1290E-06  0.8906E-07  0.9205E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9410042508211865E-007  +/-   8.6307056366634076E-010
 Final result:   2.6141265784618000E-007  +/-   9.4881250926584347E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348833
   Stability unknown:                                          0
   Stable PS point:                                       348833
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348833
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348833
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48164272    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.83658123    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.37634563    
 Time spent in Integrated_CT :    9.56567383    
 Time spent in Virtuals :    527.756958    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.49967766    
 Time spent in N1body_prefactor :   0.767980695    
 Time spent in Adding_alphas_pdf :    10.6278076    
 Time spent in Reweight_scale :    44.1309776    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0621052    
 Time spent in Applying_cuts :    5.53082180    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.1154709    
 Time spent in Other_tasks :    24.5355835    
 Time spent in Total :    702.287720    
Time in seconds: 712



LOG file for integration channel /P0_ddx_emep/all_G1_12, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25443
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          12
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  37884
  with seed                   48
 Ranmar initialization seeds       30233       17227
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433617D+04 0.433617D+04  1.00
 muF1, muF1_reference: 0.433617D+04 0.433617D+04  1.00
 muF2, muF2_reference: 0.433617D+04 0.433617D+04  1.00
 QES,  QES_reference:  0.433617D+04 0.433617D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4814336017839142E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3376677305538054E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6361123526941560E-006           OLP:   -6.6361123526941568E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6075667368141690E-005           OLP:   -1.6075667368141839E-005
  FINITE:
           OLP:   -3.8941703090193030E-004
           BORN:    2.4862504106790075E-003
  MOMENTA (Exyzm): 
           1   2669.9154616890846        0.0000000000000000        0.0000000000000000        2669.9154616890846        0.0000000000000000     
           2   2669.9154616890846       -0.0000000000000000       -0.0000000000000000       -2669.9154616890846        0.0000000000000000     
           3   2669.9154616890846       -1835.3414363173686       -885.15878225022072        1725.2432625308938        0.0000000000000000     
           4   2669.9154616890846        1835.3414363173686        885.15878225022072       -1725.2432625308938        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6361123526941560E-006           OLP:   -6.6361123526941568E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6075667368141694E-005           OLP:   -1.6075667368141839E-005
ABS integral  = 0.3928E-06  +/-  0.8371E-09  (   0.213 %)
Integral      = 0.2604E-06  +/-  0.9248E-09  (   0.355 %)
Virtual       = 0.6335E-09  +/-  0.4832E-09  (  76.266 %)
Virtual ratio = -.2868E+00  +/-  0.3865E-03  (   0.135 %)
ABS virtual   = 0.1842E-06  +/-  0.4158E-09  (   0.226 %)
Born          = 0.9507E-06  +/-  0.1611E-08  (   0.169 %)
V  2          = 0.6335E-09  +/-  0.4832E-09  (  76.266 %)
B  2          = 0.9507E-06  +/-  0.1611E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3928E-06  +/-  0.8371E-09  (   0.213 %)
accumulated results Integral      = 0.2604E-06  +/-  0.9248E-09  (   0.355 %)
accumulated results Virtual       = 0.6335E-09  +/-  0.4832E-09  (  76.266 %)
accumulated results Virtual ratio = -.2868E+00  +/-  0.3865E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1842E-06  +/-  0.4158E-09  (   0.226 %)
accumulated results Born          = 0.9507E-06  +/-  0.1611E-08  (   0.169 %)
accumulated results V  2          = 0.6335E-09  +/-  0.4832E-09  (  76.266 %)
accumulated results B  2          = 0.9507E-06  +/-  0.1611E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95422    11311  0.6708E-07  0.4268E-07  0.8757E+00
channel    2 :     1 T    96067    11643  0.6746E-07  0.4413E-07  0.8904E+00
channel    3 :     2 T   185157    21117  0.1296E-06  0.8526E-07  0.7606E+00
channel    4 :     2 T   183222    21463  0.1287E-06  0.8836E-07  0.9227E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9283440175208292E-007  +/-   8.3708371277248375E-010
 Final result:   2.6043505227350320E-007  +/-   9.2476767796400577E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348928
   Stability unknown:                                          0
   Stable PS point:                                       348928
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348928
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348928
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50664270    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.88580894    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.47059107    
 Time spent in Integrated_CT :    9.66455078    
 Time spent in Virtuals :    527.696167    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.67435360    
 Time spent in N1body_prefactor :   0.793588519    
 Time spent in Adding_alphas_pdf :    10.5538416    
 Time spent in Reweight_scale :    44.0768509    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.2370148    
 Time spent in Applying_cuts :    5.62950134    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.4884415    
 Time spent in Other_tasks :    24.6536865    
 Time spent in Total :    703.331055    
Time in seconds: 713



LOG file for integration channel /P0_ddx_emep/all_G1_13, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25451
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          13
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  41041
  with seed                   48
 Ranmar initialization seeds       30233       20384
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.368612D+04 0.368612D+04  1.00
 muF1, muF1_reference: 0.368612D+04 0.368612D+04  1.00
 muF2, muF2_reference: 0.368612D+04 0.368612D+04  1.00
 QES,  QES_reference:  0.368612D+04 0.368612D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5976037964433141E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3220324057436212E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8740325139815624E-006           OLP:   -6.8740325139815615E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7089170730741216E-005           OLP:   -1.7089170730741561E-005
  FINITE:
           OLP:   -3.7308151745212373E-004
           BORN:    2.5753883075787607E-003
  MOMENTA (Exyzm): 
           1   2732.4512048872461        0.0000000000000000        0.0000000000000000        2732.4512048872461        0.0000000000000000     
           2   2732.4512048872461       -0.0000000000000000       -0.0000000000000000       -2732.4512048872461        0.0000000000000000     
           3   2732.4512048872461       -1794.4439056119454       -913.43927506807438        1847.1300299288682        0.0000000000000000     
           4   2732.4512048872461        1794.4439056119454        913.43927506807438       -1847.1300299288682        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8740325139815624E-006           OLP:   -6.8740325139815615E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7089170730741216E-005           OLP:   -1.7089170730741561E-005
ABS integral  = 0.3924E-06  +/-  0.9165E-09  (   0.234 %)
Integral      = 0.2589E-06  +/-  0.9977E-09  (   0.385 %)
Virtual       = -.7050E-09  +/-  0.4841E-09  (  68.673 %)
Virtual ratio = -.2878E+00  +/-  0.3851E-03  (   0.134 %)
ABS virtual   = 0.1837E-06  +/-  0.4173E-09  (   0.227 %)
Born          = 0.9505E-06  +/-  0.1604E-08  (   0.169 %)
V  2          = -.7050E-09  +/-  0.4841E-09  (  68.673 %)
B  2          = 0.9505E-06  +/-  0.1604E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3924E-06  +/-  0.9165E-09  (   0.234 %)
accumulated results Integral      = 0.2589E-06  +/-  0.9977E-09  (   0.385 %)
accumulated results Virtual       = -.7050E-09  +/-  0.4841E-09  (  68.673 %)
accumulated results Virtual ratio = -.2878E+00  +/-  0.3851E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1837E-06  +/-  0.4173E-09  (   0.227 %)
accumulated results Born          = 0.9505E-06  +/-  0.1604E-08  (   0.169 %)
accumulated results V  2          = -.7050E-09  +/-  0.4841E-09  (  68.673 %)
accumulated results B  2          = 0.9505E-06  +/-  0.1604E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95392    11311  0.6738E-07  0.4287E-07  0.7214E+00
channel    2 :     1 T    96421    11643  0.6754E-07  0.4298E-07  0.7658E+00
channel    3 :     2 T   184580    21117  0.1302E-06  0.8646E-07  0.7526E+00
channel    4 :     2 T   183474    21463  0.1273E-06  0.8658E-07  0.9148E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9239489482900200E-007  +/-   9.1653131130494543E-010
 Final result:   2.5888385237619840E-007  +/-   9.9766637078155135E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    349007
   Stability unknown:                                          0
   Stable PS point:                                       349007
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 349007
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       349007
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.45191336    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.78149796    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.36940336    
 Time spent in Integrated_CT :    9.46929932    
 Time spent in Virtuals :    526.424438    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.48533058    
 Time spent in N1body_prefactor :   0.777520776    
 Time spent in Adding_alphas_pdf :    10.3865204    
 Time spent in Reweight_scale :    43.9190292    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5941057    
 Time spent in Applying_cuts :    5.46379375    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.7633209    
 Time spent in Other_tasks :    24.2233276    
 Time spent in Total :    699.109558    
Time in seconds: 709



LOG file for integration channel /P0_ddx_emep/all_G1_14, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25450
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          14
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  44198
  with seed                   48
 Ranmar initialization seeds       30233       23541
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439660D+04 0.439660D+04  1.00
 muF1, muF1_reference: 0.439660D+04 0.439660D+04  1.00
 muF2, muF2_reference: 0.439660D+04 0.439660D+04  1.00
 QES,  QES_reference:  0.439660D+04 0.439660D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4716950021207179E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3318289148911753E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7929530386243024E-006           OLP:   -6.7929530386243100E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6737853203853352E-005           OLP:   -1.6737853203853359E-005
  FINITE:
           OLP:   -3.7719932606149805E-004
           BORN:    2.5450115043857305E-003
  MOMENTA (Exyzm): 
           1   2693.0678648542407        0.0000000000000000        0.0000000000000000        2693.0678648542407        0.0000000000000000     
           2   2693.0678648542407       -0.0000000000000000       -0.0000000000000000       -2693.0678648542407        0.0000000000000000     
           3   2693.0678648542407       -2008.7581840251166       -39.449420735369465        1793.3066737249205        0.0000000000000000     
           4   2693.0678648542407        2008.7581840251166        39.449420735369465       -1793.3066737249205        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7929530386243024E-006           OLP:   -6.7929530386243100E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6737853203853352E-005           OLP:   -1.6737853203853359E-005
ABS integral  = 0.3941E-06  +/-  0.8879E-09  (   0.225 %)
Integral      = 0.2612E-06  +/-  0.9716E-09  (   0.372 %)
Virtual       = 0.8502E-09  +/-  0.4864E-09  (  57.208 %)
Virtual ratio = -.2870E+00  +/-  0.3862E-03  (   0.135 %)
ABS virtual   = 0.1846E-06  +/-  0.4192E-09  (   0.227 %)
Born          = 0.9508E-06  +/-  0.1603E-08  (   0.169 %)
V  2          = 0.8502E-09  +/-  0.4864E-09  (  57.208 %)
B  2          = 0.9508E-06  +/-  0.1603E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3941E-06  +/-  0.8879E-09  (   0.225 %)
accumulated results Integral      = 0.2612E-06  +/-  0.9716E-09  (   0.372 %)
accumulated results Virtual       = 0.8502E-09  +/-  0.4864E-09  (  57.208 %)
accumulated results Virtual ratio = -.2870E+00  +/-  0.3862E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1846E-06  +/-  0.4192E-09  (   0.227 %)
accumulated results Born          = 0.9508E-06  +/-  0.1603E-08  (   0.169 %)
accumulated results V  2          = 0.8502E-09  +/-  0.4864E-09  (  57.208 %)
accumulated results B  2          = 0.9508E-06  +/-  0.1603E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95328    11311  0.6745E-07  0.4295E-07  0.8781E+00
channel    2 :     1 T    95837    11643  0.6695E-07  0.4380E-07  0.8977E+00
channel    3 :     2 T   185369    21117  0.1308E-06  0.8644E-07  0.6943E+00
channel    4 :     2 T   183339    21463  0.1288E-06  0.8798E-07  0.8915E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9407702027192472E-007  +/-   8.8794094574954920E-010
 Final result:   2.6117156704333354E-007  +/-   9.7158920752444814E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348891
   Stability unknown:                                          0
   Stable PS point:                                       348891
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348891
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348891
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.47961986    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.83348465    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.35481930    
 Time spent in Integrated_CT :    9.47656250    
 Time spent in Virtuals :    524.659119    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.51306343    
 Time spent in N1body_prefactor :   0.768210173    
 Time spent in Adding_alphas_pdf :    10.4369812    
 Time spent in Reweight_scale :    43.8736191    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6447716    
 Time spent in Applying_cuts :    5.51569653    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.9079742    
 Time spent in Other_tasks :    24.1253662    
 Time spent in Total :    697.589233    
Time in seconds: 707



LOG file for integration channel /P0_ddx_emep/all_G1_15, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25446
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          15
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  47355
  with seed                   48
 Ranmar initialization seeds       30233       26698
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.447121D+04 0.447121D+04  1.00
 muF1, muF1_reference: 0.447121D+04 0.447121D+04  1.00
 muF2, muF2_reference: 0.447121D+04 0.447121D+04  1.00
 QES,  QES_reference:  0.447121D+04 0.447121D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4598876312542084E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3458103504689704E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6407748567604072E-006           OLP:   -6.6407748567604131E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6094937107795454E-005           OLP:   -1.6094937107795417E-005
  FINITE:
           OLP:   -3.8542822557527422E-004
           BORN:    2.4879972395501016E-003
  MOMENTA (Exyzm): 
           1   2638.0213788935707        0.0000000000000000        0.0000000000000000        2638.0213788935707        0.0000000000000000     
           2   2638.0213788935707       -0.0000000000000000       -0.0000000000000000       -2638.0213788935707        0.0000000000000000     
           3   2638.0213788935707       -2005.2519336463861       -164.63011628825146        1706.1706839932172        0.0000000000000000     
           4   2638.0213788935707        2005.2519336463861        164.63011628825146       -1706.1706839932172        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6407748567604072E-006           OLP:   -6.6407748567604131E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6094937107795454E-005           OLP:   -1.6094937107795417E-005
ABS integral  = 0.3943E-06  +/-  0.8691E-09  (   0.220 %)
Integral      = 0.2609E-06  +/-  0.9547E-09  (   0.366 %)
Virtual       = 0.1448E-09  +/-  0.4870E-09  ( 336.224 %)
Virtual ratio = -.2878E+00  +/-  0.3854E-03  (   0.134 %)
ABS virtual   = 0.1844E-06  +/-  0.4200E-09  (   0.228 %)
Born          = 0.9529E-06  +/-  0.1621E-08  (   0.170 %)
V  2          = 0.1448E-09  +/-  0.4870E-09  ( 336.224 %)
B  2          = 0.9529E-06  +/-  0.1621E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3943E-06  +/-  0.8691E-09  (   0.220 %)
accumulated results Integral      = 0.2609E-06  +/-  0.9547E-09  (   0.366 %)
accumulated results Virtual       = 0.1448E-09  +/-  0.4870E-09  ( 336.224 %)
accumulated results Virtual ratio = -.2878E+00  +/-  0.3854E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1844E-06  +/-  0.4200E-09  (   0.228 %)
accumulated results Born          = 0.9529E-06  +/-  0.1621E-08  (   0.170 %)
accumulated results V  2          = 0.1448E-09  +/-  0.4870E-09  ( 336.224 %)
accumulated results B  2          = 0.9529E-06  +/-  0.1621E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    94778    11311  0.6645E-07  0.4217E-07  0.8778E+00
channel    2 :     1 T    97060    11643  0.6793E-07  0.4414E-07  0.9090E+00
channel    3 :     2 T   184889    21117  0.1312E-06  0.8642E-07  0.7323E+00
channel    4 :     2 T   183145    21463  0.1287E-06  0.8821E-07  0.8860E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9434729681843676E-007  +/-   8.6906321915118000E-010
 Final result:   2.6093757819616463E-007  +/-   9.5468118235009864E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348637
   Stability unknown:                                          0
   Stable PS point:                                       348637
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348637
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348637
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.47044706    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.83490944    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.30497360    
 Time spent in Integrated_CT :    9.41662598    
 Time spent in Virtuals :    523.662842    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.45069885    
 Time spent in N1body_prefactor :   0.778092921    
 Time spent in Adding_alphas_pdf :    10.3681078    
 Time spent in Reweight_scale :    43.7783661    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6628933    
 Time spent in Applying_cuts :    5.47324419    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.7036552    
 Time spent in Other_tasks :    24.0747070    
 Time spent in Total :    695.979614    
Time in seconds: 707



LOG file for integration channel /P0_ddx_emep/all_G1_16, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25442
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          16
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  50512
  with seed                   48
 Ranmar initialization seeds       30233       29855
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.447167D+04 0.447167D+04  1.00
 muF1, muF1_reference: 0.447167D+04 0.447167D+04  1.00
 muF2, muF2_reference: 0.447167D+04 0.447167D+04  1.00
 QES,  QES_reference:  0.447167D+04 0.447167D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4598169680590687E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3305431133211627E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8357951536720244E-006           OLP:   -6.8357951536720236E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6922653235876895E-005           OLP:   -1.6922653235877816E-005
  FINITE:
           OLP:   -3.7336193289127443E-004
           BORN:    2.5610625023903847E-003
  MOMENTA (Exyzm): 
           1   2698.1983769419730        0.0000000000000000        0.0000000000000000        2698.1983769419730        0.0000000000000000     
           2   2698.1983769419730       -0.0000000000000000       -0.0000000000000000       -2698.1983769419730        0.0000000000000000     
           3   2698.1983769419730       -1422.9861785704713       -1405.4074484804478        1811.1363064897632        0.0000000000000000     
           4   2698.1983769419730        1422.9861785704713        1405.4074484804478       -1811.1363064897632        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8357951536720244E-006           OLP:   -6.8357951536720236E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6922653235876895E-005           OLP:   -1.6922653235877816E-005
ABS integral  = 0.3938E-06  +/-  0.9420E-09  (   0.239 %)
Integral      = 0.2599E-06  +/-  0.1022E-08  (   0.393 %)
Virtual       = 0.1705E-09  +/-  0.4862E-09  ( 285.221 %)
Virtual ratio = -.2873E+00  +/-  0.3863E-03  (   0.134 %)
ABS virtual   = 0.1847E-06  +/-  0.4189E-09  (   0.227 %)
Born          = 0.9515E-06  +/-  0.1611E-08  (   0.169 %)
V  2          = 0.1705E-09  +/-  0.4862E-09  ( 285.221 %)
B  2          = 0.9515E-06  +/-  0.1611E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3938E-06  +/-  0.9420E-09  (   0.239 %)
accumulated results Integral      = 0.2599E-06  +/-  0.1022E-08  (   0.393 %)
accumulated results Virtual       = 0.1705E-09  +/-  0.4862E-09  ( 285.221 %)
accumulated results Virtual ratio = -.2873E+00  +/-  0.3863E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1847E-06  +/-  0.4189E-09  (   0.227 %)
accumulated results Born          = 0.9515E-06  +/-  0.1611E-08  (   0.169 %)
accumulated results V  2          = 0.1705E-09  +/-  0.4862E-09  ( 285.221 %)
accumulated results B  2          = 0.9515E-06  +/-  0.1611E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95520    11311  0.6755E-07  0.4243E-07  0.7349E+00
channel    2 :     1 T    95845    11643  0.6762E-07  0.4310E-07  0.6883E+00
channel    3 :     2 T   185454    21117  0.1306E-06  0.8710E-07  0.7640E+00
channel    4 :     2 T   183056    21463  0.1280E-06  0.8730E-07  0.9166E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9378358747536967E-007  +/-   9.4203594623788304E-010
 Final result:   2.5992705406315015E-007  +/-   1.0216279123575008E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348546
   Stability unknown:                                          0
   Stable PS point:                                       348546
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348546
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348546
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.47046006    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.79757690    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.35149050    
 Time spent in Integrated_CT :    9.51385498    
 Time spent in Virtuals :    524.616089    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.60990334    
 Time spent in N1body_prefactor :   0.766211033    
 Time spent in Adding_alphas_pdf :    10.3568058    
 Time spent in Reweight_scale :    43.8198662    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6235523    
 Time spent in Applying_cuts :    5.49489069    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.9188080    
 Time spent in Other_tasks :    24.1935425    
 Time spent in Total :    697.533081    
Time in seconds: 707



LOG file for integration channel /P0_ddx_emep/all_G1_17, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        2457
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          17
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  53669
  with seed                   48
 Ranmar initialization seeds       30233        2931
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424585D+04 0.424585D+04  1.00
 muF1, muF1_reference: 0.424585D+04 0.424585D+04  1.00
 muF2, muF2_reference: 0.424585D+04 0.424585D+04  1.00
 QES,  QES_reference:  0.424585D+04 0.424585D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4962915836851746E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3338114588722303E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6372031447219729E-006           OLP:   -6.6372031447219721E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6080243034728313E-005           OLP:   -1.6080243034728493E-005
  FINITE:
           OLP:   -3.9102462048171127E-004
           BORN:    2.4866590809942447E-003
  MOMENTA (Exyzm): 
           1   2685.1799376034410        0.0000000000000000        0.0000000000000000        2685.1799376034410        0.0000000000000000     
           2   2685.1799376034410       -0.0000000000000000       -0.0000000000000000       -2685.1799376034410        0.0000000000000000     
           3   2685.1799376034410       -2041.1728625451588       -178.58202112368213        1735.4864171893141        0.0000000000000000     
           4   2685.1799376034410        2041.1728625451588        178.58202112368213       -1735.4864171893141        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6372031447219729E-006           OLP:   -6.6372031447219721E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6080243034728313E-005           OLP:   -1.6080243034728493E-005
 Error #15 in genps_fks.f  -1.1324882507324219E-006           3
ABS integral  = 0.3942E-06  +/-  0.8648E-09  (   0.219 %)
Integral      = 0.2614E-06  +/-  0.9505E-09  (   0.364 %)
Virtual       = 0.1001E-08  +/-  0.4885E-09  (  48.794 %)
Virtual ratio = -.2869E+00  +/-  0.3863E-03  (   0.135 %)
ABS virtual   = 0.1845E-06  +/-  0.4218E-09  (   0.229 %)
Born          = 0.9518E-06  +/-  0.1606E-08  (   0.169 %)
V  2          = 0.1001E-08  +/-  0.4885E-09  (  48.794 %)
B  2          = 0.9518E-06  +/-  0.1606E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3942E-06  +/-  0.8648E-09  (   0.219 %)
accumulated results Integral      = 0.2614E-06  +/-  0.9505E-09  (   0.364 %)
accumulated results Virtual       = 0.1001E-08  +/-  0.4885E-09  (  48.794 %)
accumulated results Virtual ratio = -.2869E+00  +/-  0.3863E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1845E-06  +/-  0.4218E-09  (   0.229 %)
accumulated results Born          = 0.9518E-06  +/-  0.1606E-08  (   0.169 %)
accumulated results V  2          = 0.1001E-08  +/-  0.4885E-09  (  48.794 %)
accumulated results B  2          = 0.9518E-06  +/-  0.1606E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95392    11311  0.6735E-07  0.4230E-07  0.8293E+00
channel    2 :     1 T    96550    11643  0.6795E-07  0.4409E-07  0.8977E+00
channel    3 :     2 T   184735    21117  0.1301E-06  0.8657E-07  0.7520E+00
channel    4 :     2 T   183196    21463  0.1288E-06  0.8843E-07  0.9118E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9422852983881235E-007  +/-   8.6480976098339419E-010
 Final result:   2.6138876894260909E-007  +/-   9.5050144023853054E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    349034
   Stability unknown:                                          0
   Stable PS point:                                       349034
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 349034
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       349034
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.65006685    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.77312756    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.98590183    
 Time spent in Integrated_CT :    10.1317749    
 Time spent in Virtuals :    571.034668    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.0054903    
 Time spent in N1body_prefactor :   0.954587102    
 Time spent in Adding_alphas_pdf :    11.6467829    
 Time spent in Reweight_scale :    56.6409683    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.4989243    
 Time spent in Applying_cuts :    7.08225727    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.8959427    
 Time spent in Other_tasks :    28.6466064    
 Time spent in Total :    780.947144    
Time in seconds: 783



LOG file for integration channel /P0_ddx_emep/all_G1_18, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        2453
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          18
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  56826
  with seed                   48
 Ranmar initialization seeds       30233        6088
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423524D+04 0.423524D+04  1.00
 muF1, muF1_reference: 0.423524D+04 0.423524D+04  1.00
 muF2, muF2_reference: 0.423524D+04 0.423524D+04  1.00
 QES,  QES_reference:  0.423524D+04 0.423524D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4980618934508109E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3478609378565360E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6086414520009806E-006           OLP:   -6.6086414520009831E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5961805861972529E-005           OLP:   -1.5961805861972681E-005
  FINITE:
           OLP:   -3.8732815392796373E-004
           BORN:    2.4759583097469910E-003
  MOMENTA (Exyzm): 
           1   2630.0608662760046        0.0000000000000000        0.0000000000000000        2630.0608662760046        0.0000000000000000     
           2   2630.0608662760046       -0.0000000000000000       -0.0000000000000000       -2630.0608662760046        0.0000000000000000     
           3   2630.0608662760046       -1543.6167179169843       -1295.1070080487348        1690.3151854570613        0.0000000000000000     
           4   2630.0608662760046        1543.6167179169843        1295.1070080487348       -1690.3151854570613        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6086414520009806E-006           OLP:   -6.6086414520009831E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5961805861972529E-005           OLP:   -1.5961805861972681E-005
ABS integral  = 0.3937E-06  +/-  0.8520E-09  (   0.216 %)
Integral      = 0.2609E-06  +/-  0.9387E-09  (   0.360 %)
Virtual       = 0.1062E-08  +/-  0.4875E-09  (  45.924 %)
Virtual ratio = -.2870E+00  +/-  0.3866E-03  (   0.135 %)
ABS virtual   = 0.1851E-06  +/-  0.4201E-09  (   0.227 %)
Born          = 0.9527E-06  +/-  0.1613E-08  (   0.169 %)
V  2          = 0.1062E-08  +/-  0.4875E-09  (  45.924 %)
B  2          = 0.9527E-06  +/-  0.1613E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3937E-06  +/-  0.8520E-09  (   0.216 %)
accumulated results Integral      = 0.2609E-06  +/-  0.9387E-09  (   0.360 %)
accumulated results Virtual       = 0.1062E-08  +/-  0.4875E-09  (  45.924 %)
accumulated results Virtual ratio = -.2870E+00  +/-  0.3866E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1851E-06  +/-  0.4201E-09  (   0.227 %)
accumulated results Born          = 0.9527E-06  +/-  0.1613E-08  (   0.169 %)
accumulated results V  2          = 0.1062E-08  +/-  0.4875E-09  (  45.924 %)
accumulated results B  2          = 0.9527E-06  +/-  0.1613E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95649    11311  0.6783E-07  0.4332E-07  0.8665E+00
channel    2 :     1 T    96129    11643  0.6716E-07  0.4357E-07  0.8921E+00
channel    3 :     2 T   184542    21117  0.1295E-06  0.8561E-07  0.7605E+00
channel    4 :     2 T   183555    21463  0.1292E-06  0.8845E-07  0.9129E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9372362939998599E-007  +/-   8.5200194933356163E-010
 Final result:   2.6094194014563488E-007  +/-   9.3870691271047529E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348713
   Stability unknown:                                          0
   Stable PS point:                                       348713
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348713
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348713
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.66249347    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.85254478    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.96916580    
 Time spent in Integrated_CT :    10.1986694    
 Time spent in Virtuals :    574.840759    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.89392662    
 Time spent in N1body_prefactor :   0.975717664    
 Time spent in Adding_alphas_pdf :    11.5882645    
 Time spent in Reweight_scale :    56.5484924    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6104565    
 Time spent in Applying_cuts :    7.16304779    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.6556129    
 Time spent in Other_tasks :    28.7185669    
 Time spent in Total :    784.677734    
Time in seconds: 787



LOG file for integration channel /P0_ddx_emep/all_G1_19, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        2452
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          19
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  59983
  with seed                   48
 Ranmar initialization seeds       30233        9245
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439457D+04 0.439457D+04  1.00
 muF1, muF1_reference: 0.439457D+04 0.439457D+04  1.00
 muF2, muF2_reference: 0.439457D+04 0.439457D+04  1.00
 QES,  QES_reference:  0.439457D+04 0.439457D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4720185651324697E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3385985761768080E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6102085188311896E-006           OLP:   -6.6102085188311871E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5968387975313226E-005           OLP:   -1.5968387975313098E-005
  FINITE:
           OLP:   -3.9125711570981017E-004
           BORN:    2.4765454186359156E-003
  MOMENTA (Exyzm): 
           1   2666.2463023487030        0.0000000000000000        0.0000000000000000        2666.2463023487030        0.0000000000000000     
           2   2666.2463023487030       -0.0000000000000000       -0.0000000000000000       -2666.2463023487030        0.0000000000000000     
           3   2666.2463023487030       -1923.2811797326769       -686.76149434983120        1714.1229531024314        0.0000000000000000     
           4   2666.2463023487030        1923.2811797326769        686.76149434983120       -1714.1229531024314        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6102085188311896E-006           OLP:   -6.6102085188311871E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5968387975313226E-005           OLP:   -1.5968387975313098E-005
 Error #15 in genps_fks.f  -1.0728836059570312E-006           4
ABS integral  = 0.3932E-06  +/-  0.1029E-08  (   0.262 %)
Integral      = 0.2576E-06  +/-  0.1103E-08  (   0.428 %)
Virtual       = -.8695E-09  +/-  0.4843E-09  (  55.696 %)
Virtual ratio = -.2879E+00  +/-  0.3856E-03  (   0.134 %)
ABS virtual   = 0.1837E-06  +/-  0.4174E-09  (   0.227 %)
Born          = 0.9518E-06  +/-  0.1619E-08  (   0.170 %)
V  2          = -.8695E-09  +/-  0.4843E-09  (  55.696 %)
B  2          = 0.9518E-06  +/-  0.1619E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3932E-06  +/-  0.1029E-08  (   0.262 %)
accumulated results Integral      = 0.2576E-06  +/-  0.1103E-08  (   0.428 %)
accumulated results Virtual       = -.8695E-09  +/-  0.4843E-09  (  55.696 %)
accumulated results Virtual ratio = -.2879E+00  +/-  0.3856E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1837E-06  +/-  0.4174E-09  (   0.227 %)
accumulated results Born          = 0.9518E-06  +/-  0.1619E-08  (   0.170 %)
accumulated results V  2          = -.8695E-09  +/-  0.4843E-09  (  55.696 %)
accumulated results B  2          = 0.9518E-06  +/-  0.1619E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95586    11311  0.6768E-07  0.4287E-07  0.8724E+00
channel    2 :     1 T    96045    11643  0.6804E-07  0.4321E-07  0.5193E+00
channel    3 :     2 T   185205    21117  0.1298E-06  0.8493E-07  0.7537E+00
channel    4 :     2 T   183039    21463  0.1277E-06  0.8658E-07  0.8744E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9323464422988855E-007  +/-   1.0293739007565952E-009
 Final result:   2.5759013299502694E-007  +/-   1.1033091000348412E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348546
   Stability unknown:                                          0
   Stable PS point:                                       348546
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348546
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348546
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.65936720    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.80627298    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.00314093    
 Time spent in Integrated_CT :    10.1492310    
 Time spent in Virtuals :    574.543091    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.0089321    
 Time spent in N1body_prefactor :   0.959039271    
 Time spent in Adding_alphas_pdf :    11.6748085    
 Time spent in Reweight_scale :    56.3584175    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.7467365    
 Time spent in Applying_cuts :    7.19328928    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.9264526    
 Time spent in Other_tasks :    28.5947876    
 Time spent in Total :    784.623596    
Time in seconds: 787



LOG file for integration channel /P0_ddx_emep/all_G1_20, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42035
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          20
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  63140
  with seed                   48
 Ranmar initialization seeds       30233       12402
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433697D+04 0.433697D+04  1.00
 muF1, muF1_reference: 0.433697D+04 0.433697D+04  1.00
 muF2, muF2_reference: 0.433697D+04 0.433697D+04  1.00
 QES,  QES_reference:  0.433697D+04 0.433697D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4813038834453838E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3255720256806059E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6207812393132840E-006           OLP:   -6.6207812393132840E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6012253217535158E-005           OLP:   -1.6012253217535172E-005
  FINITE:
           OLP:   -3.9611724920008535E-004
           BORN:    2.4805065376229877E-003
  MOMENTA (Exyzm): 
           1   2718.1430830926552        0.0000000000000000        0.0000000000000000        2718.1430830926552        0.0000000000000000     
           2   2718.1430830926552       -0.0000000000000000       -0.0000000000000000       -2718.1430830926552        0.0000000000000000     
           3   2718.1430830926552       -1672.0891093214934       -1235.2566340215828        1751.1598667050846        0.0000000000000000     
           4   2718.1430830926552        1672.0891093214934        1235.2566340215828       -1751.1598667050846        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6207812393132840E-006           OLP:   -6.6207812393132840E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6012253217535158E-005           OLP:   -1.6012253217535172E-005
ABS integral  = 0.3938E-06  +/-  0.9253E-09  (   0.235 %)
Integral      = 0.2598E-06  +/-  0.1006E-08  (   0.387 %)
Virtual       = 0.5286E-09  +/-  0.4843E-09  (  91.628 %)
Virtual ratio = -.2876E+00  +/-  0.3862E-03  (   0.134 %)
ABS virtual   = 0.1847E-06  +/-  0.4167E-09  (   0.226 %)
Born          = 0.9522E-06  +/-  0.1610E-08  (   0.169 %)
V  2          = 0.5286E-09  +/-  0.4843E-09  (  91.628 %)
B  2          = 0.9522E-06  +/-  0.1610E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3938E-06  +/-  0.9253E-09  (   0.235 %)
accumulated results Integral      = 0.2598E-06  +/-  0.1006E-08  (   0.387 %)
accumulated results Virtual       = 0.5286E-09  +/-  0.4843E-09  (  91.628 %)
accumulated results Virtual ratio = -.2876E+00  +/-  0.3862E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1847E-06  +/-  0.4167E-09  (   0.226 %)
accumulated results Born          = 0.9522E-06  +/-  0.1610E-08  (   0.169 %)
accumulated results V  2          = 0.5286E-09  +/-  0.4843E-09  (  91.628 %)
accumulated results B  2          = 0.9522E-06  +/-  0.1610E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95725    11311  0.6737E-07  0.4269E-07  0.8501E+00
channel    2 :     1 T    96275    11643  0.6712E-07  0.4355E-07  0.8939E+00
channel    3 :     2 T   184567    21117  0.1307E-06  0.8549E-07  0.6301E+00
channel    4 :     2 T   183306    21463  0.1287E-06  0.8803E-07  0.9055E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9380279345327598E-007  +/-   9.2534427975603339E-010
 Final result:   2.5977690918366250E-007  +/-   1.0063400487186187E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348765
   Stability unknown:                                          0
   Stable PS point:                                       348765
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348765
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348765
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20870662    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.68202639    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.16282701    
 Time spent in Integrated_CT :    9.10940552    
 Time spent in Virtuals :    496.732697    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.32438946    
 Time spent in N1body_prefactor :   0.614122033    
 Time spent in Adding_alphas_pdf :    9.97988987    
 Time spent in Reweight_scale :    36.9649010    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3499899    
 Time spent in Applying_cuts :    4.89739323    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6352310    
 Time spent in Other_tasks :    20.9744263    
 Time spent in Total :    650.636108    
Time in seconds: 654



LOG file for integration channel /P0_ddx_emep/all_G1_21, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42031
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          21
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  66297
  with seed                   48
 Ranmar initialization seeds       30233       15559
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427964D+04 0.427964D+04  1.00
 muF1, muF1_reference: 0.427964D+04 0.427964D+04  1.00
 muF2, muF2_reference: 0.427964D+04 0.427964D+04  1.00
 QES,  QES_reference:  0.427964D+04 0.427964D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4906903390000668E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3420526529883706E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5992779220759998E-006           OLP:   -6.5992779220760024E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5923254838160424E-005           OLP:   -1.5923254838160411E-005
  FINITE:
           OLP:   -3.9067169971360855E-004
           BORN:    2.4724502196357772E-003
  MOMENTA (Exyzm): 
           1   2652.6834473551194        0.0000000000000000        0.0000000000000000        2652.6834473551194        0.0000000000000000     
           2   2652.6834473551194       -0.0000000000000000       -0.0000000000000000       -2652.6834473551194        0.0000000000000000     
           3   2652.6834473551194       -1961.1480890121243       -542.94161072341115        1701.7173831694267        0.0000000000000000     
           4   2652.6834473551194        1961.1480890121243        542.94161072341115       -1701.7173831694267        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5992779220759998E-006           OLP:   -6.5992779220760024E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5923254838160428E-005           OLP:   -1.5923254838160411E-005
ABS integral  = 0.3938E-06  +/-  0.8490E-09  (   0.216 %)
Integral      = 0.2610E-06  +/-  0.9360E-09  (   0.359 %)
Virtual       = 0.7699E-09  +/-  0.4849E-09  (  62.974 %)
Virtual ratio = -.2868E+00  +/-  0.3865E-03  (   0.135 %)
ABS virtual   = 0.1848E-06  +/-  0.4173E-09  (   0.226 %)
Born          = 0.9516E-06  +/-  0.1604E-08  (   0.169 %)
V  2          = 0.7699E-09  +/-  0.4849E-09  (  62.974 %)
B  2          = 0.9516E-06  +/-  0.1604E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3938E-06  +/-  0.8490E-09  (   0.216 %)
accumulated results Integral      = 0.2610E-06  +/-  0.9360E-09  (   0.359 %)
accumulated results Virtual       = 0.7699E-09  +/-  0.4849E-09  (  62.974 %)
accumulated results Virtual ratio = -.2868E+00  +/-  0.3865E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1848E-06  +/-  0.4173E-09  (   0.226 %)
accumulated results Born          = 0.9516E-06  +/-  0.1604E-08  (   0.169 %)
accumulated results V  2          = 0.7699E-09  +/-  0.4849E-09  (  62.974 %)
accumulated results B  2          = 0.9516E-06  +/-  0.1604E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95139    11311  0.6751E-07  0.4282E-07  0.8586E+00
channel    2 :     1 T    96328    11643  0.6753E-07  0.4395E-07  0.8932E+00
channel    3 :     2 T   184625    21117  0.1304E-06  0.8650E-07  0.7487E+00
channel    4 :     2 T   183783    21463  0.1283E-06  0.8772E-07  0.9224E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9379130130566157E-007  +/-   8.4897763911204191E-010
 Final result:   2.6098801470750863E-007  +/-   9.3599071206120985E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348852
   Stability unknown:                                          0
   Stable PS point:                                       348852
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348852
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348852
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23089981    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.63710117    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.13537121    
 Time spent in Integrated_CT :    8.99862671    
 Time spent in Virtuals :    498.334015    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.29433870    
 Time spent in N1body_prefactor :   0.595697284    
 Time spent in Adding_alphas_pdf :    9.99036503    
 Time spent in Reweight_scale :    36.9470100    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3710203    
 Time spent in Applying_cuts :    4.92924309    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6262970    
 Time spent in Other_tasks :    20.8671875    
 Time spent in Total :    651.957153    
Time in seconds: 655



LOG file for integration channel /P0_ddx_emep/all_G1_22, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42033
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          22
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  69454
  with seed                   48
 Ranmar initialization seeds       30233       18716
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.284380D+04 0.284380D+04  1.00
 muF1, muF1_reference: 0.284380D+04 0.284380D+04  1.00
 muF2, muF2_reference: 0.284380D+04 0.284380D+04  1.00
 QES,  QES_reference:  0.284380D+04 0.284380D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7909800482442823E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3279965105421577E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8173720483557187E-006           OLP:   -6.8173720483557204E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6843011727980747E-005           OLP:   -1.6843011727979835E-005
  FINITE:
           OLP:   -3.7640933805054179E-004
           BORN:    2.5541602001501202E-003
  MOMENTA (Exyzm): 
           1   2708.3939300634502        0.0000000000000000        0.0000000000000000        2708.3939300634502        0.0000000000000000     
           2   2708.3939300634502       -0.0000000000000000       -0.0000000000000000       -2708.3939300634502        0.0000000000000000     
           3   2708.3939300634502       -1440.4688133190070       -1406.3888215190016        1811.7719947516207        0.0000000000000000     
           4   2708.3939300634502        1440.4688133190070        1406.3888215190016       -1811.7719947516207        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8173720483557187E-006           OLP:   -6.8173720483557204E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6843011727980747E-005           OLP:   -1.6843011727979835E-005
ABS integral  = 0.3941E-06  +/-  0.8515E-09  (   0.216 %)
Integral      = 0.2613E-06  +/-  0.9383E-09  (   0.359 %)
Virtual       = 0.6725E-09  +/-  0.4854E-09  (  72.174 %)
Virtual ratio = -.2872E+00  +/-  0.3865E-03  (   0.135 %)
ABS virtual   = 0.1849E-06  +/-  0.4178E-09  (   0.226 %)
Born          = 0.9511E-06  +/-  0.1607E-08  (   0.169 %)
V  2          = 0.6725E-09  +/-  0.4854E-09  (  72.174 %)
B  2          = 0.9511E-06  +/-  0.1607E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3941E-06  +/-  0.8515E-09  (   0.216 %)
accumulated results Integral      = 0.2613E-06  +/-  0.9383E-09  (   0.359 %)
accumulated results Virtual       = 0.6725E-09  +/-  0.4854E-09  (  72.174 %)
accumulated results Virtual ratio = -.2872E+00  +/-  0.3865E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1849E-06  +/-  0.4178E-09  (   0.226 %)
accumulated results Born          = 0.9511E-06  +/-  0.1607E-08  (   0.169 %)
accumulated results V  2          = 0.6725E-09  +/-  0.4854E-09  (  72.174 %)
accumulated results B  2          = 0.9511E-06  +/-  0.1607E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95055    11311  0.6690E-07  0.4224E-07  0.8716E+00
channel    2 :     1 T    95777    11643  0.6743E-07  0.4395E-07  0.8941E+00
channel    3 :     2 T   185097    21117  0.1307E-06  0.8651E-07  0.7353E+00
channel    4 :     2 T   183941    21463  0.1291E-06  0.8857E-07  0.9268E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9407809845629419E-007  +/-   8.5145920825859929E-010
 Final result:   2.6127253198268017E-007  +/-   9.3831580548457104E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348868
   Stability unknown:                                          0
   Stable PS point:                                       348868
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348868
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348868
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24163878    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.58756495    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.03649378    
 Time spent in Integrated_CT :    8.94003296    
 Time spent in Virtuals :    497.485840    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.23565102    
 Time spent in N1body_prefactor :   0.599349082    
 Time spent in Adding_alphas_pdf :    10.0907707    
 Time spent in Reweight_scale :    37.4339981    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0605793    
 Time spent in Applying_cuts :    4.87250185    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.4967346    
 Time spent in Other_tasks :    20.5671997    
 Time spent in Total :    650.648376    
Time in seconds: 653



LOG file for integration channel /P0_ddx_emep/all_G1_23, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42032
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          23
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  72611
  with seed                   48
 Ranmar initialization seeds       30233       21873
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429254D+04 0.429254D+04  1.00
 muF1, muF1_reference: 0.429254D+04 0.429254D+04  1.00
 muF2, muF2_reference: 0.429254D+04 0.429254D+04  1.00
 QES,  QES_reference:  0.429254D+04 0.429254D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4885643295697107E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3374408472601266E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7065481170281258E-006           OLP:   -6.7065481170281224E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6370291727101332E-005           OLP:   -1.6370291727100831E-005
  FINITE:
           OLP:   -3.8312392397520936E-004
           BORN:    2.5126394979479603E-003
  MOMENTA (Exyzm): 
           1   2670.8106873917795        0.0000000000000000        0.0000000000000000        2670.8106873917795        0.0000000000000000     
           2   2670.8106873917795       -0.0000000000000000       -0.0000000000000000       -2670.8106873917795        0.0000000000000000     
           3   2670.8106873917795       -1513.4476689935900       -1334.8312499261194        1749.5517755484382        0.0000000000000000     
           4   2670.8106873917795        1513.4476689935900        1334.8312499261194       -1749.5517755484382        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7065481170281258E-006           OLP:   -6.7065481170281224E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6370291727101332E-005           OLP:   -1.6370291727100831E-005
ABS integral  = 0.3940E-06  +/-  0.8820E-09  (   0.224 %)
Integral      = 0.2603E-06  +/-  0.9665E-09  (   0.371 %)
Virtual       = -.2575E-09  +/-  0.4805E-09  ( 186.645 %)
Virtual ratio = -.2874E+00  +/-  0.3851E-03  (   0.134 %)
ABS virtual   = 0.1838E-06  +/-  0.4130E-09  (   0.225 %)
Born          = 0.9517E-06  +/-  0.1614E-08  (   0.170 %)
V  2          = -.2575E-09  +/-  0.4805E-09  ( 186.645 %)
B  2          = 0.9517E-06  +/-  0.1614E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3940E-06  +/-  0.8820E-09  (   0.224 %)
accumulated results Integral      = 0.2603E-06  +/-  0.9665E-09  (   0.371 %)
accumulated results Virtual       = -.2575E-09  +/-  0.4805E-09  ( 186.645 %)
accumulated results Virtual ratio = -.2874E+00  +/-  0.3851E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1838E-06  +/-  0.4130E-09  (   0.225 %)
accumulated results Born          = 0.9517E-06  +/-  0.1614E-08  (   0.170 %)
accumulated results V  2          = -.2575E-09  +/-  0.4805E-09  ( 186.645 %)
accumulated results B  2          = 0.9517E-06  +/-  0.1614E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95365    11311  0.6773E-07  0.4298E-07  0.8421E+00
channel    2 :     1 T    96240    11643  0.6739E-07  0.4389E-07  0.8720E+00
channel    3 :     2 T   184980    21117  0.1303E-06  0.8573E-07  0.7106E+00
channel    4 :     2 T   183293    21463  0.1286E-06  0.8774E-07  0.8825E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9395965228582192E-007  +/-   8.8204370183260099E-010
 Final result:   2.6034806593665062E-007  +/-   9.6651407006014879E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348963
   Stability unknown:                                          0
   Stable PS point:                                       348963
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348963
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348963
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20870638    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.69353247    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.09340668    
 Time spent in Integrated_CT :    8.94125366    
 Time spent in Virtuals :    497.832550    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.31077528    
 Time spent in N1body_prefactor :   0.612222672    
 Time spent in Adding_alphas_pdf :    9.83775520    
 Time spent in Reweight_scale :    36.7848587    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8659992    
 Time spent in Applying_cuts :    4.86020374    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.5686722    
 Time spent in Other_tasks :    20.6323242    
 Time spent in Total :    650.242371    
Time in seconds: 652



LOG file for integration channel /P0_ddx_emep/all_G1_24, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       42030
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          24
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  75768
  with seed                   48
 Ranmar initialization seeds       30233       25030
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419273D+04 0.419273D+04  1.00
 muF1, muF1_reference: 0.419273D+04 0.419273D+04  1.00
 muF2, muF2_reference: 0.419273D+04 0.419273D+04  1.00
 QES,  QES_reference:  0.419273D+04 0.419273D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5052059348563474E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3528984936281960E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5894313908947782E-006           OLP:   -6.5894313908947731E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5882591010640304E-005           OLP:   -1.5882591010640375E-005
  FINITE:
           OLP:   -3.8676574110688264E-004
           BORN:    2.4687611708536033E-003
  MOMENTA (Exyzm): 
           1   2610.6256861485381        0.0000000000000000        0.0000000000000000        2610.6256861485381        0.0000000000000000     
           2   2610.6256861485381       -0.0000000000000000       -0.0000000000000000       -2610.6256861485381        0.0000000000000000     
           3   2610.6256861485381       -1864.1876680351272       -739.21055256017371        1671.4480460091970        0.0000000000000000     
           4   2610.6256861485381        1864.1876680351272        739.21055256017371       -1671.4480460091970        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5894313908947782E-006           OLP:   -6.5894313908947731E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5882591010640304E-005           OLP:   -1.5882591010640375E-005
ABS integral  = 0.3919E-06  +/-  0.8489E-09  (   0.217 %)
Integral      = 0.2590E-06  +/-  0.9355E-09  (   0.361 %)
Virtual       = -.8587E-09  +/-  0.4812E-09  (  56.038 %)
Virtual ratio = -.2880E+00  +/-  0.3852E-03  (   0.134 %)
ABS virtual   = 0.1839E-06  +/-  0.4137E-09  (   0.225 %)
Born          = 0.9518E-06  +/-  0.1609E-08  (   0.169 %)
V  2          = -.8587E-09  +/-  0.4812E-09  (  56.038 %)
B  2          = 0.9518E-06  +/-  0.1609E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3919E-06  +/-  0.8489E-09  (   0.217 %)
accumulated results Integral      = 0.2590E-06  +/-  0.9355E-09  (   0.361 %)
accumulated results Virtual       = -.8587E-09  +/-  0.4812E-09  (  56.038 %)
accumulated results Virtual ratio = -.2880E+00  +/-  0.3852E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1839E-06  +/-  0.4137E-09  (   0.225 %)
accumulated results Born          = 0.9518E-06  +/-  0.1609E-08  (   0.169 %)
accumulated results V  2          = -.8587E-09  +/-  0.4812E-09  (  56.038 %)
accumulated results B  2          = 0.9518E-06  +/-  0.1609E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95221    11311  0.6709E-07  0.4302E-07  0.8845E+00
channel    2 :     1 T    96708    11643  0.6749E-07  0.4385E-07  0.8930E+00
channel    3 :     2 T   185469    21117  0.1297E-06  0.8503E-07  0.7379E+00
channel    4 :     2 T   182477    21463  0.1277E-06  0.8712E-07  0.9044E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9194783171935298E-007  +/-   8.4890843478594507E-010
 Final result:   2.5902531376722085E-007  +/-   9.3551959336414596E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348681
   Stability unknown:                                          0
   Stable PS point:                                       348681
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348681
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348681
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21137321    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65151310    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.13157272    
 Time spent in Integrated_CT :    8.95281982    
 Time spent in Virtuals :    491.286438    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.30446434    
 Time spent in N1body_prefactor :   0.612851501    
 Time spent in Adding_alphas_pdf :    9.93479156    
 Time spent in Reweight_scale :    37.5619202    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8671961    
 Time spent in Applying_cuts :    4.78193283    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6670914    
 Time spent in Other_tasks :    20.2375488    
 Time spent in Total :    644.201477    
Time in seconds: 647



LOG file for integration channel /P0_ddx_emep/all_G1_25, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       41975
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          25
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  78925
  with seed                   48
 Ranmar initialization seeds       30233       28187
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.446513D+04 0.446513D+04  1.00
 muF1, muF1_reference: 0.446513D+04 0.446513D+04  1.00
 muF2, muF2_reference: 0.446513D+04 0.446513D+04  1.00
 QES,  QES_reference:  0.446513D+04 0.446513D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4608410884603335E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3224135927020539E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8161120204536486E-006           OLP:   -6.8161120204536512E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6837645177148883E-005           OLP:   -1.6837645177149164E-005
  FINITE:
           OLP:   -3.7903009647458611E-004
           BORN:    2.5536881248261218E-003
  MOMENTA (Exyzm): 
           1   2730.9060563121570        0.0000000000000000        0.0000000000000000        2730.9060563121570        0.0000000000000000     
           2   2730.9060563121570       -0.0000000000000000       -0.0000000000000000       -2730.9060563121570        0.0000000000000000     
           3   2730.9060563121570       -1834.6049185240215       -869.64282260729158        1826.4156269637833        0.0000000000000000     
           4   2730.9060563121570        1834.6049185240215        869.64282260729158       -1826.4156269637833        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8161120204536486E-006           OLP:   -6.8161120204536512E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6837645177148887E-005           OLP:   -1.6837645177149164E-005
ABS integral  = 0.3929E-06  +/-  0.8659E-09  (   0.220 %)
Integral      = 0.2603E-06  +/-  0.9510E-09  (   0.365 %)
Virtual       = 0.2281E-09  +/-  0.4853E-09  ( 212.711 %)
Virtual ratio = -.2876E+00  +/-  0.3861E-03  (   0.134 %)
ABS virtual   = 0.1840E-06  +/-  0.4184E-09  (   0.227 %)
Born          = 0.9500E-06  +/-  0.1608E-08  (   0.169 %)
V  2          = 0.2281E-09  +/-  0.4853E-09  ( 212.711 %)
B  2          = 0.9500E-06  +/-  0.1608E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3929E-06  +/-  0.8659E-09  (   0.220 %)
accumulated results Integral      = 0.2603E-06  +/-  0.9510E-09  (   0.365 %)
accumulated results Virtual       = 0.2281E-09  +/-  0.4853E-09  ( 212.711 %)
accumulated results Virtual ratio = -.2876E+00  +/-  0.3861E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1840E-06  +/-  0.4184E-09  (   0.227 %)
accumulated results Born          = 0.9500E-06  +/-  0.1608E-08  (   0.169 %)
accumulated results V  2          = 0.2281E-09  +/-  0.4853E-09  ( 212.711 %)
accumulated results B  2          = 0.9500E-06  +/-  0.1608E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95425    11311  0.6668E-07  0.4204E-07  0.8441E+00
channel    2 :     1 T    96307    11643  0.6732E-07  0.4369E-07  0.8886E+00
channel    3 :     2 T   185059    21117  0.1302E-06  0.8628E-07  0.7309E+00
channel    4 :     2 T   183077    21463  0.1287E-06  0.8828E-07  0.9144E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9287909511830563E-007  +/-   8.6588750473485268E-010
 Final result:   2.6029566389861504E-007  +/-   9.5102032168229374E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348366
   Stability unknown:                                          0
   Stable PS point:                                       348366
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348366
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348366
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19015789    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.56718731    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.98069954    
 Time spent in Integrated_CT :    8.73797607    
 Time spent in Virtuals :    488.502258    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.18312931    
 Time spent in N1body_prefactor :   0.595796585    
 Time spent in Adding_alphas_pdf :    9.91807938    
 Time spent in Reweight_scale :    37.6761360    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6060553    
 Time spent in Applying_cuts :    4.75089788    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.4847870    
 Time spent in Other_tasks :    20.1945801    
 Time spent in Total :    640.387817    
Time in seconds: 651



LOG file for integration channel /P0_ddx_emep/all_G1_26, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       41987
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          26
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  82082
  with seed                   48
 Ranmar initialization seeds       30233        1263
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.428969D+04 0.428969D+04  1.00
 muF1, muF1_reference: 0.428969D+04 0.428969D+04  1.00
 muF2, muF2_reference: 0.428969D+04 0.428969D+04  1.00
 QES,  QES_reference:  0.428969D+04 0.428969D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4890338421960648E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3366076980576456E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5977383524440779E-006           OLP:   -6.5977383524440737E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5916976157354908E-005           OLP:   -1.5916976157354948E-005
  FINITE:
           OLP:   -3.9319910336982182E-004
           BORN:    2.4718734127003009E-003
  MOMENTA (Exyzm): 
           1   2674.1011489841444        0.0000000000000000        0.0000000000000000        2674.1011489841444        0.0000000000000000     
           2   2674.1011489841444       -0.0000000000000000       -0.0000000000000000       -2674.1011489841444        0.0000000000000000     
           3   2674.1011489841444       -2051.7711856789701       -2.7715377221240005        1714.9473097429234        0.0000000000000000     
           4   2674.1011489841444        2051.7711856789701        2.7715377221240005       -1714.9473097429234        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5977383524440779E-006           OLP:   -6.5977383524440737E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5916976157354908E-005           OLP:   -1.5916976157354948E-005
ABS integral  = 0.3931E-06  +/-  0.8737E-09  (   0.222 %)
Integral      = 0.2593E-06  +/-  0.9587E-09  (   0.370 %)
Virtual       = 0.4462E-09  +/-  0.4830E-09  ( 108.233 %)
Virtual ratio = -.2872E+00  +/-  0.3865E-03  (   0.135 %)
ABS virtual   = 0.1846E-06  +/-  0.4152E-09  (   0.225 %)
Born          = 0.9512E-06  +/-  0.1608E-08  (   0.169 %)
V  2          = 0.4462E-09  +/-  0.4830E-09  ( 108.233 %)
B  2          = 0.9512E-06  +/-  0.1608E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3931E-06  +/-  0.8737E-09  (   0.222 %)
accumulated results Integral      = 0.2593E-06  +/-  0.9587E-09  (   0.370 %)
accumulated results Virtual       = 0.4462E-09  +/-  0.4830E-09  ( 108.233 %)
accumulated results Virtual ratio = -.2872E+00  +/-  0.3865E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1846E-06  +/-  0.4152E-09  (   0.225 %)
accumulated results Born          = 0.9512E-06  +/-  0.1608E-08  (   0.169 %)
accumulated results V  2          = 0.4462E-09  +/-  0.4830E-09  ( 108.233 %)
accumulated results B  2          = 0.9512E-06  +/-  0.1608E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95467    11311  0.6755E-07  0.4276E-07  0.8222E+00
channel    2 :     1 T    96075    11643  0.6699E-07  0.4321E-07  0.8942E+00
channel    3 :     2 T   184904    21117  0.1305E-06  0.8490E-07  0.7094E+00
channel    4 :     2 T   183426    21463  0.1280E-06  0.8848E-07  0.9207E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9307673136772466E-007  +/-   8.7365291704694015E-010
 Final result:   2.5934984472752789E-007  +/-   9.5869870547049447E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348885
   Stability unknown:                                          0
   Stable PS point:                                       348885
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348885
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348885
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22610116    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.58717442    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.07210255    
 Time spent in Integrated_CT :    8.86996460    
 Time spent in Virtuals :    500.302246    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.31095982    
 Time spent in N1body_prefactor :   0.593196511    
 Time spent in Adding_alphas_pdf :    9.81832123    
 Time spent in Reweight_scale :    36.9899368    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0760746    
 Time spent in Applying_cuts :    4.91427183    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.5901756    
 Time spent in Other_tasks :    20.6348877    
 Time spent in Total :    652.985352    
Time in seconds: 664



LOG file for integration channel /P0_ddx_emep/all_G1_27, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       41988
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          27
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  85239
  with seed                   48
 Ranmar initialization seeds       30233        4420
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.260702D+04 0.260702D+04  1.00
 muF1, muF1_reference: 0.260702D+04 0.260702D+04  1.00
 muF2, muF2_reference: 0.260702D+04 0.260702D+04  1.00
 QES,  QES_reference:  0.260702D+04 0.260702D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.8580219750329680E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3518082109444410E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5988798228950753E-006           OLP:   -6.5988798228950778E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5921496711823323E-005           OLP:   -1.5921496711823920E-005
  FINITE:
           OLP:   -3.8644027478945025E-004
           BORN:    2.4723010699228944E-003
  MOMENTA (Exyzm): 
           1   2614.8175400305904        0.0000000000000000        0.0000000000000000        2614.8175400305904        0.0000000000000000     
           2   2614.8175400305904       -0.0000000000000000       -0.0000000000000000       -2614.8175400305904        0.0000000000000000     
           3   2614.8175400305904       -1485.7815980938121       -1347.7705368342679        1677.2711141788895        0.0000000000000000     
           4   2614.8175400305904        1485.7815980938121        1347.7705368342679       -1677.2711141788895        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5988798228950753E-006           OLP:   -6.5988798228950778E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5921496711823320E-005           OLP:   -1.5921496711823920E-005
ABS integral  = 0.3933E-06  +/-  0.8732E-09  (   0.222 %)
Integral      = 0.2608E-06  +/-  0.9578E-09  (   0.367 %)
Virtual       = -.1531E-09  +/-  0.4827E-09  ( 315.368 %)
Virtual ratio = -.2879E+00  +/-  0.3852E-03  (   0.134 %)
ABS virtual   = 0.1841E-06  +/-  0.4153E-09  (   0.226 %)
Born          = 0.9522E-06  +/-  0.1612E-08  (   0.169 %)
V  2          = -.1531E-09  +/-  0.4827E-09  ( 315.368 %)
B  2          = 0.9522E-06  +/-  0.1612E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3933E-06  +/-  0.8732E-09  (   0.222 %)
accumulated results Integral      = 0.2608E-06  +/-  0.9578E-09  (   0.367 %)
accumulated results Virtual       = -.1531E-09  +/-  0.4827E-09  ( 315.368 %)
accumulated results Virtual ratio = -.2879E+00  +/-  0.3852E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1841E-06  +/-  0.4153E-09  (   0.226 %)
accumulated results Born          = 0.9522E-06  +/-  0.1612E-08  (   0.169 %)
accumulated results V  2          = -.1531E-09  +/-  0.4827E-09  ( 315.368 %)
accumulated results B  2          = 0.9522E-06  +/-  0.1612E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95847    11311  0.6753E-07  0.4316E-07  0.8745E+00
channel    2 :     1 T    96282    11643  0.6747E-07  0.4364E-07  0.8811E+00
channel    3 :     2 T   184090    21117  0.1293E-06  0.8507E-07  0.6972E+00
channel    4 :     2 T   183651    21463  0.1290E-06  0.8893E-07  0.9122E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9333825017812203E-007  +/-   8.7323147392145093E-010
 Final result:   2.6078855342526479E-007  +/-   9.5780881635101509E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348808
   Stability unknown:                                          0
   Stable PS point:                                       348808
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348808
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348808
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21631539    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.59924841    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.99960375    
 Time spent in Integrated_CT :    8.93719482    
 Time spent in Virtuals :    499.902283    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.33581734    
 Time spent in N1body_prefactor :   0.587801099    
 Time spent in Adding_alphas_pdf :    10.0846748    
 Time spent in Reweight_scale :    37.5358658    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0345535    
 Time spent in Applying_cuts :    4.83555746    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6556396    
 Time spent in Other_tasks :    20.4893799    
 Time spent in Total :    653.213989    
Time in seconds: 664



LOG file for integration channel /P0_ddx_emep/all_G1_28, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       41984
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          28
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  88396
  with seed                   48
 Ranmar initialization seeds       30233        7577
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.348547D+04 0.348547D+04  1.00
 muF1, muF1_reference: 0.348547D+04 0.348547D+04  1.00
 muF2, muF2_reference: 0.348547D+04 0.348547D+04  1.00
 QES,  QES_reference:  0.348547D+04 0.348547D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6384794933884212E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3253254578404176E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7078530634342368E-006           OLP:   -6.7078530634342368E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6375939535840280E-005           OLP:   -1.6375939535839982E-005
  FINITE:
           OLP:   -3.8837714956539362E-004
           BORN:    2.5131284021987737E-003
  MOMENTA (Exyzm): 
           1   2719.1368936594122        0.0000000000000000        0.0000000000000000        2719.1368936594122        0.0000000000000000     
           2   2719.1368936594122       -0.0000000000000000       -0.0000000000000000       -2719.1368936594122        0.0000000000000000     
           3   2719.1368936594122       -1078.9904628284362       -1747.8814423259016        1781.6833307739512        0.0000000000000000     
           4   2719.1368936594122        1078.9904628284362        1747.8814423259016       -1781.6833307739512        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7078530634342368E-006           OLP:   -6.7078530634342368E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6375939535840283E-005           OLP:   -1.6375939535839982E-005
ABS integral  = 0.3949E-06  +/-  0.1594E-08  (   0.404 %)
Integral      = 0.2586E-06  +/-  0.1643E-08  (   0.635 %)
Virtual       = 0.6181E-09  +/-  0.4850E-09  (  78.460 %)
Virtual ratio = -.2869E+00  +/-  0.3861E-03  (   0.135 %)
ABS virtual   = 0.1841E-06  +/-  0.4179E-09  (   0.227 %)
Born          = 0.9500E-06  +/-  0.1604E-08  (   0.169 %)
V  2          = 0.6181E-09  +/-  0.4850E-09  (  78.460 %)
B  2          = 0.9500E-06  +/-  0.1604E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3949E-06  +/-  0.1594E-08  (   0.404 %)
accumulated results Integral      = 0.2586E-06  +/-  0.1643E-08  (   0.635 %)
accumulated results Virtual       = 0.6181E-09  +/-  0.4850E-09  (  78.460 %)
accumulated results Virtual ratio = -.2869E+00  +/-  0.3861E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1841E-06  +/-  0.4179E-09  (   0.227 %)
accumulated results Born          = 0.9500E-06  +/-  0.1604E-08  (   0.169 %)
accumulated results V  2          = 0.6181E-09  +/-  0.4850E-09  (  78.460 %)
accumulated results B  2          = 0.9500E-06  +/-  0.1604E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95219    11311  0.6663E-07  0.4225E-07  0.7157E+00
channel    2 :     1 T    96390    11643  0.6773E-07  0.4400E-07  0.8996E+00
channel    3 :     2 T   185088    21117  0.1326E-06  0.8482E-07  0.2848E+00
channel    4 :     2 T   183167    21463  0.1279E-06  0.8749E-07  0.9180E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9486840114945061E-007  +/-   1.5939575451059059E-009
 Final result:   2.5856107489711720E-007  +/-   1.6431024415870239E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348533
   Stability unknown:                                          0
   Stable PS point:                                       348533
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348533
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348533
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21928895    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.83187294    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.10827065    
 Time spent in Integrated_CT :    9.05804443    
 Time spent in Virtuals :    500.684448    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.27180195    
 Time spent in N1body_prefactor :   0.597999930    
 Time spent in Adding_alphas_pdf :    9.92338943    
 Time spent in Reweight_scale :    37.0018005    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3457546    
 Time spent in Applying_cuts :    4.93193197    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.7307129    
 Time spent in Other_tasks :    20.8483276    
 Time spent in Total :    654.553650    
Time in seconds: 665



LOG file for integration channel /P0_ddx_emep/all_G1_29, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       41982
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          29
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  91553
  with seed                   48
 Ranmar initialization seeds       30233       10734
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.359848D+04 0.359848D+04  1.00
 muF1, muF1_reference: 0.359848D+04 0.359848D+04  1.00
 muF2, muF2_reference: 0.359848D+04 0.359848D+04  1.00
 QES,  QES_reference:  0.359848D+04 0.359848D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6151211130361565E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3319993164141395E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8004429174495084E-006           OLP:   -6.8004429174495092E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6770030815526932E-005           OLP:   -1.6770030815526763E-005
  FINITE:
           OLP:   -3.7636476814539833E-004
           BORN:    2.5478176223830461E-003
  MOMENTA (Exyzm): 
           1   2692.3888104652779        0.0000000000000000        0.0000000000000000        2692.3888104652779        0.0000000000000000     
           2   2692.3888104652779       -0.0000000000000000       -0.0000000000000000       -2692.3888104652779        0.0000000000000000     
           3   2692.3888104652779       -1177.0710897297954       -1624.8391015288196        1795.3715633773318        0.0000000000000000     
           4   2692.3888104652779        1177.0710897297954        1624.8391015288196       -1795.3715633773318        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8004429174495084E-006           OLP:   -6.8004429174495092E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6770030815526929E-005           OLP:   -1.6770030815526763E-005
ABS integral  = 0.3950E-06  +/-  0.8713E-09  (   0.221 %)
Integral      = 0.2609E-06  +/-  0.9572E-09  (   0.367 %)
Virtual       = 0.3127E-09  +/-  0.4878E-09  ( 155.984 %)
Virtual ratio = -.2872E+00  +/-  0.3864E-03  (   0.135 %)
ABS virtual   = 0.1849E-06  +/-  0.4206E-09  (   0.228 %)
Born          = 0.9537E-06  +/-  0.1617E-08  (   0.170 %)
V  2          = 0.3127E-09  +/-  0.4878E-09  ( 155.984 %)
B  2          = 0.9537E-06  +/-  0.1617E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3950E-06  +/-  0.8713E-09  (   0.221 %)
accumulated results Integral      = 0.2609E-06  +/-  0.9572E-09  (   0.367 %)
accumulated results Virtual       = 0.3127E-09  +/-  0.4878E-09  ( 155.984 %)
accumulated results Virtual ratio = -.2872E+00  +/-  0.3864E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1849E-06  +/-  0.4206E-09  (   0.228 %)
accumulated results Born          = 0.9537E-06  +/-  0.1617E-08  (   0.170 %)
accumulated results V  2          = 0.3127E-09  +/-  0.4878E-09  ( 155.984 %)
accumulated results B  2          = 0.9537E-06  +/-  0.1617E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95894    11311  0.6809E-07  0.4314E-07  0.8398E+00
channel    2 :     1 T    96039    11643  0.6759E-07  0.4380E-07  0.9099E+00
channel    3 :     2 T   184513    21117  0.1300E-06  0.8535E-07  0.7258E+00
channel    4 :     2 T   183430    21463  0.1293E-06  0.8864E-07  0.9088E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9503131311588185E-007  +/-   8.7125225818698626E-010
 Final result:   2.6092935423462133E-007  +/-   9.5718224866058851E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    349190
   Stability unknown:                                          0
   Stable PS point:                                       349190
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 349190
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       349190
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21017814    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64754391    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.10179424    
 Time spent in Integrated_CT :    9.10437012    
 Time spent in Virtuals :    501.145569    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.31895781    
 Time spent in N1body_prefactor :   0.604191303    
 Time spent in Adding_alphas_pdf :    10.0787830    
 Time spent in Reweight_scale :    37.1537781    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0541964    
 Time spent in Applying_cuts :    4.93615913    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.7502975    
 Time spent in Other_tasks :    20.9431152    
 Time spent in Total :    655.049011    
Time in seconds: 666



LOG file for integration channel /P0_ddx_emep/all_G1_30, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       41976
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          30
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  94710
  with seed                   48
 Ranmar initialization seeds       30233       13891
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.364276D+04 0.364276D+04  1.00
 muF1, muF1_reference: 0.364276D+04 0.364276D+04  1.00
 muF2, muF2_reference: 0.364276D+04 0.364276D+04  1.00
 QES,  QES_reference:  0.364276D+04 0.364276D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6062080091814949E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3440446682464675E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6012151020676224E-006           OLP:   -6.6012151020676190E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5931215070717492E-005           OLP:   -1.5931215070717759E-005
  FINITE:
           OLP:   -3.8963293456664499E-004
           BORN:    2.4731759931449879E-003
  MOMENTA (Exyzm): 
           1   2644.8988248703577        0.0000000000000000        0.0000000000000000        2644.8988248703577        0.0000000000000000     
           2   2644.8988248703577       -0.0000000000000000       -0.0000000000000000       -2644.8988248703577        0.0000000000000000     
           3   2644.8988248703577       -1683.6198772420601       -1131.3056533406634        1697.3689703407110        0.0000000000000000     
           4   2644.8988248703577        1683.6198772420601        1131.3056533406634       -1697.3689703407110        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6012151020676224E-006           OLP:   -6.6012151020676190E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5931215070717492E-005           OLP:   -1.5931215070717759E-005
ABS integral  = 0.3935E-06  +/-  0.8483E-09  (   0.216 %)
Integral      = 0.2611E-06  +/-  0.9351E-09  (   0.358 %)
Virtual       = 0.2178E-09  +/-  0.4846E-09  ( 222.500 %)
Virtual ratio = -.2877E+00  +/-  0.3864E-03  (   0.134 %)
ABS virtual   = 0.1842E-06  +/-  0.4174E-09  (   0.227 %)
Born          = 0.9502E-06  +/-  0.1602E-08  (   0.169 %)
V  2          = 0.2178E-09  +/-  0.4846E-09  ( 222.500 %)
B  2          = 0.9502E-06  +/-  0.1602E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3935E-06  +/-  0.8483E-09  (   0.216 %)
accumulated results Integral      = 0.2611E-06  +/-  0.9351E-09  (   0.358 %)
accumulated results Virtual       = 0.2178E-09  +/-  0.4846E-09  ( 222.500 %)
accumulated results Virtual ratio = -.2877E+00  +/-  0.3864E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1842E-06  +/-  0.4174E-09  (   0.227 %)
accumulated results Born          = 0.9502E-06  +/-  0.1602E-08  (   0.169 %)
accumulated results V  2          = 0.2178E-09  +/-  0.4846E-09  ( 222.500 %)
accumulated results B  2          = 0.9502E-06  +/-  0.1602E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95897    11311  0.6745E-07  0.4334E-07  0.8891E+00
channel    2 :     1 T    95987    11643  0.6737E-07  0.4376E-07  0.9051E+00
channel    3 :     2 T   184759    21117  0.1297E-06  0.8529E-07  0.7405E+00
channel    4 :     2 T   183231    21463  0.1290E-06  0.8876E-07  0.9104E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9353626037511024E-007  +/-   8.4828110141050872E-010
 Final result:   2.6114061780507748E-007  +/-   9.3509113894846033E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348442
   Stability unknown:                                          0
   Stable PS point:                                       348442
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348442
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348442
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21475506    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.70542145    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.10090351    
 Time spent in Integrated_CT :    8.98217773    
 Time spent in Virtuals :    498.093597    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.31234646    
 Time spent in N1body_prefactor :   0.606098533    
 Time spent in Adding_alphas_pdf :    10.1448851    
 Time spent in Reweight_scale :    37.2152405    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7932606    
 Time spent in Applying_cuts :    4.92146111    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6447754    
 Time spent in Other_tasks :    20.8692017    
 Time spent in Total :    652.604065    
Time in seconds: 663



LOG file for integration channel /P0_ddx_emep/all_G1_31, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       41983
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          31
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 ,  97867
  with seed                   48
 Ranmar initialization seeds       30233       17048
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.405494D+04 0.405494D+04  1.00
 muF1, muF1_reference: 0.405494D+04 0.405494D+04  1.00
 muF2, muF2_reference: 0.405494D+04 0.405494D+04  1.00
 QES,  QES_reference:  0.405494D+04 0.405494D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5289671641139588E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3471337538729892E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6033666546131076E-006           OLP:   -6.6033666546131118E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5940049122721146E-005           OLP:   -1.5940049122719489E-005
  FINITE:
           OLP:   -3.8809725534477149E-004
           BORN:    2.4739820823302680E-003
  MOMENTA (Exyzm): 
           1   2632.8805698102101        0.0000000000000000        0.0000000000000000        2632.8805698102101        0.0000000000000000     
           2   2632.8805698102101       -0.0000000000000000       -0.0000000000000000       -2632.8805698102101        0.0000000000000000     
           3   2632.8805698102101       -1373.0956159241737       -1479.6370110316450        1690.3676641486284        0.0000000000000000     
           4   2632.8805698102101        1373.0956159241737        1479.6370110316450       -1690.3676641486284        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6033666546131076E-006           OLP:   -6.6033666546131118E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5940049122721143E-005           OLP:   -1.5940049122719489E-005
ABS integral  = 0.3941E-06  +/-  0.8575E-09  (   0.218 %)
Integral      = 0.2615E-06  +/-  0.9438E-09  (   0.361 %)
Virtual       = 0.1906E-09  +/-  0.4860E-09  ( 254.908 %)
Virtual ratio = -.2875E+00  +/-  0.3858E-03  (   0.134 %)
ABS virtual   = 0.1846E-06  +/-  0.4187E-09  (   0.227 %)
Born          = 0.9532E-06  +/-  0.1615E-08  (   0.169 %)
V  2          = 0.1906E-09  +/-  0.4860E-09  ( 254.908 %)
B  2          = 0.9532E-06  +/-  0.1615E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3941E-06  +/-  0.8575E-09  (   0.218 %)
accumulated results Integral      = 0.2615E-06  +/-  0.9438E-09  (   0.361 %)
accumulated results Virtual       = 0.1906E-09  +/-  0.4860E-09  ( 254.908 %)
accumulated results Virtual ratio = -.2875E+00  +/-  0.3858E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1846E-06  +/-  0.4187E-09  (   0.227 %)
accumulated results Born          = 0.9532E-06  +/-  0.1615E-08  (   0.169 %)
accumulated results V  2          = 0.1906E-09  +/-  0.4860E-09  ( 254.908 %)
accumulated results B  2          = 0.9532E-06  +/-  0.1615E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95729    11311  0.6776E-07  0.4294E-07  0.8426E+00
channel    2 :     1 T    95985    11643  0.6710E-07  0.4345E-07  0.9087E+00
channel    3 :     2 T   185265    21117  0.1309E-06  0.8663E-07  0.7420E+00
channel    4 :     2 T   182897    21463  0.1284E-06  0.8850E-07  0.9152E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9413844050438394E-007  +/-   8.5753303248428652E-010
 Final result:   2.6151874359501827E-007  +/-   9.4375405540189929E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348864
   Stability unknown:                                          0
   Stable PS point:                                       348864
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348864
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348864
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22120941    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64467192    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.06302547    
 Time spent in Integrated_CT :    8.93972778    
 Time spent in Virtuals :    497.599579    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.24706459    
 Time spent in N1body_prefactor :   0.600825727    
 Time spent in Adding_alphas_pdf :    10.0949888    
 Time spent in Reweight_scale :    37.0465393    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3907909    
 Time spent in Applying_cuts :    4.96996546    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.1080513    
 Time spent in Other_tasks :    20.8864746    
 Time spent in Total :    651.812927    
Time in seconds: 662



LOG file for integration channel /P0_ddx_emep/all_G1_32, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       41974
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          32
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 101024
  with seed                   48
 Ranmar initialization seeds       30233       20205
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.421328D+04 0.421328D+04  1.00
 muF1, muF1_reference: 0.421328D+04 0.421328D+04  1.00
 muF2, muF2_reference: 0.421328D+04 0.421328D+04  1.00
 QES,  QES_reference:  0.421328D+04 0.421328D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5017414101492624E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3450315997898169E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5806406869242363E-006           OLP:   -6.5806406869242287E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5846568149632020E-005           OLP:   -1.5846568149632115E-005
  FINITE:
           OLP:   -3.9093619796375426E-004
           BORN:    2.4654676926550247E-003
  MOMENTA (Exyzm): 
           1   2641.0520400442242        0.0000000000000000        0.0000000000000000        2641.0520400442242        0.0000000000000000     
           2   2641.0520400442242       -0.0000000000000000       -0.0000000000000000       -2641.0520400442242        0.0000000000000000     
           3   2641.0520400442242       -1987.8140731642040       -417.63155499818146        1687.9973261299606        0.0000000000000000     
           4   2641.0520400442242        1987.8140731642040        417.63155499818146       -1687.9973261299606        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5806406869242363E-006           OLP:   -6.5806406869242287E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5846568149632020E-005           OLP:   -1.5846568149632115E-005
ABS integral  = 0.3940E-06  +/-  0.8660E-09  (   0.220 %)
Integral      = 0.2601E-06  +/-  0.9521E-09  (   0.366 %)
Virtual       = -.4065E-09  +/-  0.4879E-09  ( 120.036 %)
Virtual ratio = -.2883E+00  +/-  0.3855E-03  (   0.134 %)
ABS virtual   = 0.1846E-06  +/-  0.4209E-09  (   0.228 %)
Born          = 0.9531E-06  +/-  0.1620E-08  (   0.170 %)
V  2          = -.4065E-09  +/-  0.4879E-09  ( 120.036 %)
B  2          = 0.9531E-06  +/-  0.1620E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3940E-06  +/-  0.8660E-09  (   0.220 %)
accumulated results Integral      = 0.2601E-06  +/-  0.9521E-09  (   0.366 %)
accumulated results Virtual       = -.4065E-09  +/-  0.4879E-09  ( 120.036 %)
accumulated results Virtual ratio = -.2883E+00  +/-  0.3855E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1846E-06  +/-  0.4209E-09  (   0.228 %)
accumulated results Born          = 0.9531E-06  +/-  0.1620E-08  (   0.170 %)
accumulated results V  2          = -.4065E-09  +/-  0.4879E-09  ( 120.036 %)
accumulated results B  2          = 0.9531E-06  +/-  0.1620E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95232    11311  0.6674E-07  0.4211E-07  0.8117E+00
channel    2 :     1 T    95861    11643  0.6741E-07  0.4367E-07  0.9159E+00
channel    3 :     2 T   185267    21117  0.1310E-06  0.8618E-07  0.7473E+00
channel    4 :     2 T   183511    21463  0.1288E-06  0.8811E-07  0.9108E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9399318737764701E-007  +/-   8.6602423005266731E-010
 Final result:   2.6006799975374187E-007  +/-   9.5207869863258657E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    349193
   Stability unknown:                                          0
   Stable PS point:                                       349193
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 349193
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       349193
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20985746    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.57287359    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.93109751    
 Time spent in Integrated_CT :    8.74365234    
 Time spent in Virtuals :    496.741974    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.19170570    
 Time spent in N1body_prefactor :   0.607211351    
 Time spent in Adding_alphas_pdf :    10.0093861    
 Time spent in Reweight_scale :    37.8125916    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8291712    
 Time spent in Applying_cuts :    4.73632097    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.4886017    
 Time spent in Other_tasks :    20.0297852    
 Time spent in Total :    648.904297    
Time in seconds: 660



LOG file for integration channel /P0_ddx_emep/all_G1_33, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       41981
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          33
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 104181
  with seed                   48
 Ranmar initialization seeds       30233       23362
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.414582D+04 0.414582D+04  1.00
 muF1, muF1_reference: 0.414582D+04 0.414582D+04  1.00
 muF2, muF2_reference: 0.414582D+04 0.414582D+04  1.00
 QES,  QES_reference:  0.414582D+04 0.414582D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5131896873281978E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3348222662094620E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6041052069363319E-006           OLP:   -6.6041052069363293E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5943241863207928E-005           OLP:   -1.5943241863207901E-005
  FINITE:
           OLP:   -3.9344573377525076E-004
           BORN:    2.4742587843990900E-003
  MOMENTA (Exyzm): 
           1   2681.1688080944828        0.0000000000000000        0.0000000000000000        2681.1688080944828        0.0000000000000000     
           2   2681.1688080944828       -0.0000000000000000       -0.0000000000000000       -2681.1688080944828        0.0000000000000000     
           3   2681.1688080944828       -1959.9567580324901       -618.99634800610022        1721.6501402133565        0.0000000000000000     
           4   2681.1688080944828        1959.9567580324901        618.99634800610022       -1721.6501402133565        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6041052069363319E-006           OLP:   -6.6041052069363293E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5943241863207925E-005           OLP:   -1.5943241863207901E-005
ABS integral  = 0.3935E-06  +/-  0.8611E-09  (   0.219 %)
Integral      = 0.2598E-06  +/-  0.9473E-09  (   0.365 %)
Virtual       = 0.4502E-09  +/-  0.4845E-09  ( 107.635 %)
Virtual ratio = -.2872E+00  +/-  0.3869E-03  (   0.135 %)
ABS virtual   = 0.1846E-06  +/-  0.4171E-09  (   0.226 %)
Born          = 0.9501E-06  +/-  0.1602E-08  (   0.169 %)
V  2          = 0.4502E-09  +/-  0.4845E-09  ( 107.635 %)
B  2          = 0.9501E-06  +/-  0.1602E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3935E-06  +/-  0.8611E-09  (   0.219 %)
accumulated results Integral      = 0.2598E-06  +/-  0.9473E-09  (   0.365 %)
accumulated results Virtual       = 0.4502E-09  +/-  0.4845E-09  ( 107.635 %)
accumulated results Virtual ratio = -.2872E+00  +/-  0.3869E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1846E-06  +/-  0.4171E-09  (   0.226 %)
accumulated results Born          = 0.9501E-06  +/-  0.1602E-08  (   0.169 %)
accumulated results V  2          = 0.4502E-09  +/-  0.4845E-09  ( 107.635 %)
accumulated results B  2          = 0.9501E-06  +/-  0.1602E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95350    11311  0.6740E-07  0.4265E-07  0.8686E+00
channel    2 :     1 T    96649    11643  0.6771E-07  0.4411E-07  0.8973E+00
channel    3 :     2 T   184506    21117  0.1301E-06  0.8573E-07  0.7402E+00
channel    4 :     2 T   183371    21463  0.1283E-06  0.8730E-07  0.8937E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9350127073268612E-007  +/-   8.6107641607603650E-010
 Final result:   2.5979966851855849E-007  +/-   9.4734667512446940E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348810
   Stability unknown:                                          0
   Stable PS point:                                       348810
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348810
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348810
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21169293    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64484262    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.99205351    
 Time spent in Integrated_CT :    8.77233887    
 Time spent in Virtuals :    489.878662    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.24911261    
 Time spent in N1body_prefactor :   0.611923993    
 Time spent in Adding_alphas_pdf :    9.94027042    
 Time spent in Reweight_scale :    37.6322174    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7686672    
 Time spent in Applying_cuts :    4.76390362    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6427765    
 Time spent in Other_tasks :    20.4671631    
 Time spent in Total :    642.575623    
Time in seconds: 653



LOG file for integration channel /P0_ddx_emep/all_G1_34, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       41973
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          34
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 107338
  with seed                   48
 Ranmar initialization seeds       30233       26519
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.450885D+04 0.450885D+04  1.00
 muF1, muF1_reference: 0.450885D+04 0.450885D+04  1.00
 muF2, muF2_reference: 0.450885D+04 0.450885D+04  1.00
 QES,  QES_reference:  0.450885D+04 0.450885D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4540217788898286E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3369663821239620E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7221767153921975E-006           OLP:   -6.7221767153922035E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6436264741006932E-005           OLP:   -1.6436264741007020E-005
  FINITE:
           OLP:   -3.8185941696463081E-004
           BORN:    2.5184948251389229E-003
  MOMENTA (Exyzm): 
           1   2672.6839627510849        0.0000000000000000        0.0000000000000000        2672.6839627510849        0.0000000000000000     
           2   2672.6839627510849       -0.0000000000000000       -0.0000000000000000       -2672.6839627510849        0.0000000000000000     
           3   2672.6839627510849       -2011.1212583000399       -122.43078455027106        1756.0300544566176        0.0000000000000000     
           4   2672.6839627510849        2011.1212583000399        122.43078455027106       -1756.0300544566176        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7221767153921975E-006           OLP:   -6.7221767153922035E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6436264741006932E-005           OLP:   -1.6436264741007020E-005
ABS integral  = 0.3936E-06  +/-  0.9224E-09  (   0.234 %)
Integral      = 0.2602E-06  +/-  0.1003E-08  (   0.386 %)
Virtual       = -.2300E-09  +/-  0.4834E-09  ( 210.175 %)
Virtual ratio = -.2880E+00  +/-  0.3853E-03  (   0.134 %)
ABS virtual   = 0.1843E-06  +/-  0.4160E-09  (   0.226 %)
Born          = 0.9526E-06  +/-  0.1605E-08  (   0.169 %)
V  2          = -.2300E-09  +/-  0.4834E-09  ( 210.175 %)
B  2          = 0.9526E-06  +/-  0.1605E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3936E-06  +/-  0.9224E-09  (   0.234 %)
accumulated results Integral      = 0.2602E-06  +/-  0.1003E-08  (   0.386 %)
accumulated results Virtual       = -.2300E-09  +/-  0.4834E-09  ( 210.175 %)
accumulated results Virtual ratio = -.2880E+00  +/-  0.3853E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1843E-06  +/-  0.4160E-09  (   0.226 %)
accumulated results Born          = 0.9526E-06  +/-  0.1605E-08  (   0.169 %)
accumulated results V  2          = -.2300E-09  +/-  0.4834E-09  ( 210.175 %)
accumulated results B  2          = 0.9526E-06  +/-  0.1605E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95502    11311  0.6774E-07  0.4290E-07  0.8220E+00
channel    2 :     1 T    96313    11643  0.6750E-07  0.4401E-07  0.9088E+00
channel    3 :     2 T   184814    21117  0.1299E-06  0.8586E-07  0.7579E+00
channel    4 :     2 T   183245    21463  0.1284E-06  0.8746E-07  0.7692E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9358551035683363E-007  +/-   9.2237951054979693E-010
 Final result:   2.6022985233129813E-007  +/-   1.0032526832780049E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    349173
   Stability unknown:                                          0
   Stable PS point:                                       349173
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 349173
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       349173
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20767665    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.63274574    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.93004608    
 Time spent in Integrated_CT :    8.74719238    
 Time spent in Virtuals :    488.160309    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.14899158    
 Time spent in N1body_prefactor :   0.594822586    
 Time spent in Adding_alphas_pdf :    9.97029686    
 Time spent in Reweight_scale :    37.9137688    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4365740    
 Time spent in Applying_cuts :    4.61729336    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.4231873    
 Time spent in Other_tasks :    19.9185791    
 Time spent in Total :    639.701538    
Time in seconds: 650



LOG file for integration channel /P0_ddx_emep/all_G1_35, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21430
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          35
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 110495
  with seed                   48
 Ranmar initialization seeds       30233       29676
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.243999D+04 0.243999D+04  1.00
 muF1, muF1_reference: 0.243999D+04 0.243999D+04  1.00
 muF2, muF2_reference: 0.243999D+04 0.243999D+04  1.00
 QES,  QES_reference:  0.243999D+04 0.243999D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.9098635940333534E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3280073066633630E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7669370151221621E-006           OLP:   -6.7669370151221689E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6626531208118417E-005           OLP:   -1.6626531208118359E-005
  FINITE:
           OLP:   -3.8149586023860944E-004
           BORN:    2.5352644799716290E-003
  MOMENTA (Exyzm): 
           1   2708.3506104132093        0.0000000000000000        0.0000000000000000        2708.3506104132093        0.0000000000000000     
           2   2708.3506104132093       -0.0000000000000000       -0.0000000000000000       -2708.3506104132093        0.0000000000000000     
           3   2708.3506104132093       -1592.2470301304268       -1256.5912604639839        1794.6840468706393        0.0000000000000000     
           4   2708.3506104132093        1592.2470301304268        1256.5912604639839       -1794.6840468706393        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7669370151221621E-006           OLP:   -6.7669370151221689E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6626531208118417E-005           OLP:   -1.6626531208118359E-005
ABS integral  = 0.3931E-06  +/-  0.8757E-09  (   0.223 %)
Integral      = 0.2597E-06  +/-  0.9604E-09  (   0.370 %)
Virtual       = -.3719E-09  +/-  0.4845E-09  ( 130.291 %)
Virtual ratio = -.2877E+00  +/-  0.3860E-03  (   0.134 %)
ABS virtual   = 0.1843E-06  +/-  0.4173E-09  (   0.226 %)
Born          = 0.9518E-06  +/-  0.1618E-08  (   0.170 %)
V  2          = -.3719E-09  +/-  0.4845E-09  ( 130.291 %)
B  2          = 0.9518E-06  +/-  0.1618E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3931E-06  +/-  0.8757E-09  (   0.223 %)
accumulated results Integral      = 0.2597E-06  +/-  0.9604E-09  (   0.370 %)
accumulated results Virtual       = -.3719E-09  +/-  0.4845E-09  ( 130.291 %)
accumulated results Virtual ratio = -.2877E+00  +/-  0.3860E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1843E-06  +/-  0.4173E-09  (   0.226 %)
accumulated results Born          = 0.9518E-06  +/-  0.1618E-08  (   0.170 %)
accumulated results V  2          = -.3719E-09  +/-  0.4845E-09  ( 130.291 %)
accumulated results B  2          = 0.9518E-06  +/-  0.1618E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95387    11311  0.6682E-07  0.4197E-07  0.8275E+00
channel    2 :     1 T    96171    11643  0.6743E-07  0.4355E-07  0.8265E+00
channel    3 :     2 T   185124    21117  0.1308E-06  0.8651E-07  0.7344E+00
channel    4 :     2 T   183190    21463  0.1280E-06  0.8764E-07  0.9251E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9306183649431550E-007  +/-   8.7566179748526703E-010
 Final result:   2.5966565071345193E-007  +/-   9.6036643910808560E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348904
   Stability unknown:                                          0
   Stable PS point:                                       348904
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348904
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348904
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.94636202    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.80881214    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.30400753    
 Time spent in Integrated_CT :    12.4291992    
 Time spent in Virtuals :    694.221863    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.7020550    
 Time spent in N1body_prefactor :    1.12701941    
 Time spent in Adding_alphas_pdf :    13.7986469    
 Time spent in Reweight_scale :    58.5535736    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.5005608    
 Time spent in Applying_cuts :    7.59178162    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    65.8478012    
 Time spent in Other_tasks :    34.9420166    
 Time spent in Total :    939.773682    
Time in seconds: 955



LOG file for integration channel /P0_ddx_emep/all_G1_36, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21435
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          36
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 113652
  with seed                   48
 Ranmar initialization seeds       30233        2752
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.414542D+04 0.414542D+04  1.00
 muF1, muF1_reference: 0.414542D+04 0.414542D+04  1.00
 muF2, muF2_reference: 0.414542D+04 0.414542D+04  1.00
 QES,  QES_reference:  0.414542D+04 0.414542D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5132590058713103E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3263448477087947E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7919906316210098E-006           OLP:   -6.7919906316210123E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6733791613836670E-005           OLP:   -1.6733791613836684E-005
  FINITE:
           OLP:   -3.7973492485742400E-004
           BORN:    2.5446509341180788E-003
  MOMENTA (Exyzm): 
           1   2715.0309558273871        0.0000000000000000        0.0000000000000000        2715.0309558273871        0.0000000000000000     
           2   2715.0309558273871       -0.0000000000000000       -0.0000000000000000       -2715.0309558273871        0.0000000000000000     
           3   2715.0309558273871       -1952.6083290994177       -539.65680119344290        1807.6184169116598        0.0000000000000000     
           4   2715.0309558273871        1952.6083290994177        539.65680119344290       -1807.6184169116598        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7919906316210098E-006           OLP:   -6.7919906316210123E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6733791613836670E-005           OLP:   -1.6733791613836684E-005
ABS integral  = 0.3944E-06  +/-  0.8910E-09  (   0.226 %)
Integral      = 0.2611E-06  +/-  0.9747E-09  (   0.373 %)
Virtual       = 0.9340E-10  +/-  0.4842E-09  ( 518.413 %)
Virtual ratio = -.2875E+00  +/-  0.3859E-03  (   0.134 %)
ABS virtual   = 0.1845E-06  +/-  0.4167E-09  (   0.226 %)
Born          = 0.9529E-06  +/-  0.1615E-08  (   0.169 %)
V  2          = 0.9340E-10  +/-  0.4842E-09  ( 518.413 %)
B  2          = 0.9529E-06  +/-  0.1615E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3944E-06  +/-  0.8910E-09  (   0.226 %)
accumulated results Integral      = 0.2611E-06  +/-  0.9747E-09  (   0.373 %)
accumulated results Virtual       = 0.9340E-10  +/-  0.4842E-09  ( 518.413 %)
accumulated results Virtual ratio = -.2875E+00  +/-  0.3859E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1845E-06  +/-  0.4167E-09  (   0.226 %)
accumulated results Born          = 0.9529E-06  +/-  0.1615E-08  (   0.169 %)
accumulated results V  2          = 0.9340E-10  +/-  0.4842E-09  ( 518.413 %)
accumulated results B  2          = 0.9529E-06  +/-  0.1615E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    96201    11311  0.6761E-07  0.4313E-07  0.8507E+00
channel    2 :     1 T    95883    11643  0.6713E-07  0.4371E-07  0.8855E+00
channel    3 :     2 T   184480    21117  0.1308E-06  0.8618E-07  0.6831E+00
channel    4 :     2 T   183304    21463  0.1289E-06  0.8811E-07  0.9070E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9443401416485873E-007  +/-   8.9100058432070423E-010
 Final result:   2.6113265935964439E-007  +/-   9.7466280597914342E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    349101
   Stability unknown:                                          0
   Stable PS point:                                       349101
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 349101
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       349101
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.98478949    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.87651920    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.31852150    
 Time spent in Integrated_CT :    12.5743408    
 Time spent in Virtuals :    696.815491    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.8424397    
 Time spent in N1body_prefactor :    1.09687376    
 Time spent in Adding_alphas_pdf :    13.9812412    
 Time spent in Reweight_scale :    57.6862526    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.9230690    
 Time spent in Applying_cuts :    7.79318810    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    65.7332611    
 Time spent in Other_tasks :    34.8093262    
 Time spent in Total :    942.435425    
Time in seconds: 960



LOG file for integration channel /P0_ddx_emep/all_G1_37, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21425
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          37
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 116809
  with seed                   48
 Ranmar initialization seeds       30233        5909
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.449179D+04 0.449179D+04  1.00
 muF1, muF1_reference: 0.449179D+04 0.449179D+04  1.00
 muF2, muF2_reference: 0.449179D+04 0.449179D+04  1.00
 QES,  QES_reference:  0.449179D+04 0.449179D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4566728024034926E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3257290506122771E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6843265104659015E-006           OLP:   -6.6843265104659007E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6277012887173296E-005           OLP:   -1.6277012887173293E-005
  FINITE:
           OLP:   -3.9037959534558397E-004
           BORN:    2.5043140695186409E-003
  MOMENTA (Exyzm): 
           1   2717.5104066953095        0.0000000000000000        0.0000000000000000        2717.5104066953095        0.0000000000000000     
           2   2717.5104066953095       -0.0000000000000000       -0.0000000000000000       -2717.5104066953095        0.0000000000000000     
           3   2717.5104066953095       -2012.4396067995649       -439.26061230319948        1772.5686880797418        0.0000000000000000     
           4   2717.5104066953095        2012.4396067995649        439.26061230319948       -1772.5686880797418        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6843265104659015E-006           OLP:   -6.6843265104659007E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6277012887173303E-005           OLP:   -1.6277012887173293E-005
ABS integral  = 0.3940E-06  +/-  0.9116E-09  (   0.231 %)
Integral      = 0.2597E-06  +/-  0.9939E-09  (   0.383 %)
Virtual       = -.2822E-10  +/-  0.4888E-09  ( ******* %)
Virtual ratio = -.2875E+00  +/-  0.3857E-03  (   0.134 %)
ABS virtual   = 0.1848E-06  +/-  0.4218E-09  (   0.228 %)
Born          = 0.9535E-06  +/-  0.1620E-08  (   0.170 %)
V  2          = -.2822E-10  +/-  0.4888E-09  ( ******* %)
B  2          = 0.9535E-06  +/-  0.1620E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3940E-06  +/-  0.9116E-09  (   0.231 %)
accumulated results Integral      = 0.2597E-06  +/-  0.9939E-09  (   0.383 %)
accumulated results Virtual       = -.2822E-10  +/-  0.4888E-09  ( ******* %)
accumulated results Virtual ratio = -.2875E+00  +/-  0.3857E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1848E-06  +/-  0.4218E-09  (   0.228 %)
accumulated results Born          = 0.9535E-06  +/-  0.1620E-08  (   0.170 %)
accumulated results V  2          = -.2822E-10  +/-  0.4888E-09  ( ******* %)
accumulated results B  2          = 0.9535E-06  +/-  0.1620E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95271    11311  0.6742E-07  0.4258E-07  0.8221E+00
channel    2 :     1 T    96001    11643  0.6791E-07  0.4432E-07  0.8823E+00
channel    3 :     2 T   185121    21117  0.1301E-06  0.8547E-07  0.7138E+00
channel    4 :     2 T   183479    21463  0.1286E-06  0.8733E-07  0.8598E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9398929508783518E-007  +/-   9.1159480134290181E-010
 Final result:   2.5970506850776331E-007  +/-   9.9387746859264420E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348836
   Stability unknown:                                          0
   Stable PS point:                                       348836
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348836
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348836
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.99548888    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.86630058    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.30545187    
 Time spent in Integrated_CT :    12.6227417    
 Time spent in Virtuals :    696.391418    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.8133659    
 Time spent in N1body_prefactor :    1.10370970    
 Time spent in Adding_alphas_pdf :    13.9956770    
 Time spent in Reweight_scale :    57.6434975    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.0051231    
 Time spent in Applying_cuts :    7.75300407    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    65.8515625    
 Time spent in Other_tasks :    34.8180542    
 Time spent in Total :    942.165344    
Time in seconds: 960



LOG file for integration channel /P0_ddx_emep/all_G1_38, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21419
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          38
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 119966
  with seed                   48
 Ranmar initialization seeds       30233        9066
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442522D+04 0.442522D+04  1.00
 muF1, muF1_reference: 0.442522D+04 0.442522D+04  1.00
 muF2, muF2_reference: 0.442522D+04 0.442522D+04  1.00
 QES,  QES_reference:  0.442522D+04 0.442522D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4671376825915722E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3254573098691919E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7330234638508233E-006           OLP:   -6.7330234638508258E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6482319670985340E-005           OLP:   -1.6482319670985201E-005
  FINITE:
           OLP:   -3.8593214586809242E-004
           BORN:    2.5225586099841026E-003
  MOMENTA (Exyzm): 
           1   2718.6054003386757        0.0000000000000000        0.0000000000000000        2718.6054003386757        0.0000000000000000     
           2   2718.6054003386757       -0.0000000000000000       -0.0000000000000000       -2718.6054003386757        0.0000000000000000     
           3   2718.6054003386757       -1789.5518261111667       -992.20263209681389        1789.9311498694453        0.0000000000000000     
           4   2718.6054003386757        1789.5518261111667        992.20263209681389       -1789.9311498694453        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7330234638508233E-006           OLP:   -6.7330234638508258E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6482319670985343E-005           OLP:   -1.6482319670985201E-005
ABS integral  = 0.3940E-06  +/-  0.8711E-09  (   0.221 %)
Integral      = 0.2602E-06  +/-  0.9567E-09  (   0.368 %)
Virtual       = 0.2267E-09  +/-  0.4889E-09  ( 215.679 %)
Virtual ratio = -.2875E+00  +/-  0.3864E-03  (   0.134 %)
ABS virtual   = 0.1848E-06  +/-  0.4219E-09  (   0.228 %)
Born          = 0.9534E-06  +/-  0.1626E-08  (   0.171 %)
V  2          = 0.2267E-09  +/-  0.4889E-09  ( 215.679 %)
B  2          = 0.9534E-06  +/-  0.1626E-08  (   0.171 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3940E-06  +/-  0.8711E-09  (   0.221 %)
accumulated results Integral      = 0.2602E-06  +/-  0.9567E-09  (   0.368 %)
accumulated results Virtual       = 0.2267E-09  +/-  0.4889E-09  ( 215.679 %)
accumulated results Virtual ratio = -.2875E+00  +/-  0.3864E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1848E-06  +/-  0.4219E-09  (   0.228 %)
accumulated results Born          = 0.9534E-06  +/-  0.1626E-08  (   0.171 %)
accumulated results V  2          = 0.2267E-09  +/-  0.4889E-09  ( 215.679 %)
accumulated results B  2          = 0.9534E-06  +/-  0.1626E-08  (   0.171 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95332    11311  0.6779E-07  0.4219E-07  0.8291E+00
channel    2 :     1 T    95847    11643  0.6792E-07  0.4441E-07  0.9081E+00
channel    3 :     2 T   185049    21117  0.1291E-06  0.8551E-07  0.7684E+00
channel    4 :     2 T   183642    21463  0.1293E-06  0.8813E-07  0.8775E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9404087361205970E-007  +/-   8.7110875002174484E-010
 Final result:   2.6024313854122367E-007  +/-   9.5665599455460473E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348752
   Stability unknown:                                          0
   Stable PS point:                                       348752
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348752
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348752
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.01957369    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.93190479    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.39284039    
 Time spent in Integrated_CT :    12.6083984    
 Time spent in Virtuals :    697.569641    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.8211203    
 Time spent in N1body_prefactor :    1.09540057    
 Time spent in Adding_alphas_pdf :    14.2117634    
 Time spent in Reweight_scale :    57.7939148    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.9479656    
 Time spent in Applying_cuts :    7.64005280    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    65.8688126    
 Time spent in Other_tasks :    34.7588501    
 Time spent in Total :    943.660278    
Time in seconds: 961



LOG file for integration channel /P0_ddx_emep/all_G1_39, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21431
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          39
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 123123
  with seed                   48
 Ranmar initialization seeds       30233       12223
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.451044D+04 0.451044D+04  1.00
 muF1, muF1_reference: 0.451044D+04 0.451044D+04  1.00
 muF2, muF2_reference: 0.451044D+04 0.451044D+04  1.00
 QES,  QES_reference:  0.451044D+04 0.451044D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4537750599032268E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3376228932820253E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7277805011928996E-006           OLP:   -6.7277805011929106E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6459963144137266E-005           OLP:   -1.6459963144137185E-005
  FINITE:
           OLP:   -3.8103617437645529E-004
           BORN:    2.5205943095972737E-003
  MOMENTA (Exyzm): 
           1   2670.0923502818332        0.0000000000000000        0.0000000000000000        2670.0923502818332        0.0000000000000000     
           2   2670.0923502818332       -0.0000000000000000       -0.0000000000000000       -2670.0923502818332        0.0000000000000000     
           3   2670.0923502818332       -1833.3086394410821       -827.11399817870597        1756.2047220073994        0.0000000000000000     
           4   2670.0923502818332        1833.3086394410821        827.11399817870597       -1756.2047220073994        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7277805011928996E-006           OLP:   -6.7277805011929106E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6459963144137263E-005           OLP:   -1.6459963144137185E-005
ABS integral  = 0.3933E-06  +/-  0.8676E-09  (   0.221 %)
Integral      = 0.2599E-06  +/-  0.9530E-09  (   0.367 %)
Virtual       = -.2393E-09  +/-  0.4831E-09  ( 201.851 %)
Virtual ratio = -.2881E+00  +/-  0.3864E-03  (   0.134 %)
ABS virtual   = 0.1840E-06  +/-  0.4158E-09  (   0.226 %)
Born          = 0.9507E-06  +/-  0.1607E-08  (   0.169 %)
V  2          = -.2393E-09  +/-  0.4831E-09  ( 201.851 %)
B  2          = 0.9507E-06  +/-  0.1607E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3933E-06  +/-  0.8676E-09  (   0.221 %)
accumulated results Integral      = 0.2599E-06  +/-  0.9530E-09  (   0.367 %)
accumulated results Virtual       = -.2393E-09  +/-  0.4831E-09  ( 201.851 %)
accumulated results Virtual ratio = -.2881E+00  +/-  0.3864E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1840E-06  +/-  0.4158E-09  (   0.226 %)
accumulated results Born          = 0.9507E-06  +/-  0.1607E-08  (   0.169 %)
accumulated results V  2          = -.2393E-09  +/-  0.4831E-09  ( 201.851 %)
accumulated results B  2          = 0.9507E-06  +/-  0.1607E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95309    11311  0.6718E-07  0.4285E-07  0.8354E+00
channel    2 :     1 T    96332    11643  0.6723E-07  0.4339E-07  0.8939E+00
channel    3 :     2 T   185001    21117  0.1304E-06  0.8537E-07  0.7312E+00
channel    4 :     2 T   183228    21463  0.1285E-06  0.8833E-07  0.8997E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9326654229515141E-007  +/-   8.6756990137185051E-010
 Final result:   2.5993710882940844E-007  +/-   9.5301270676124118E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348413
   Stability unknown:                                          0
   Stable PS point:                                       348413
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348413
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348413
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.98437166    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.84070015    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.39341116    
 Time spent in Integrated_CT :    12.5747070    
 Time spent in Virtuals :    695.293579    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.8526936    
 Time spent in N1body_prefactor :    1.10648561    
 Time spent in Adding_alphas_pdf :    13.7582111    
 Time spent in Reweight_scale :    57.3907394    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.7321110    
 Time spent in Applying_cuts :    7.62820292    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    65.5674820    
 Time spent in Other_tasks :    34.7630615    
 Time spent in Total :    939.885864    
Time in seconds: 955



LOG file for integration channel /P0_ddx_emep/all_G1_40, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21432
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          40
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 126280
  with seed                   48
 Ranmar initialization seeds       30233       15380
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.414865D+04 0.414865D+04  1.00
 muF1, muF1_reference: 0.414865D+04 0.414865D+04  1.00
 muF2, muF2_reference: 0.414865D+04 0.414865D+04  1.00
 QES,  QES_reference:  0.414865D+04 0.414865D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5127061044040364E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3374750064926747E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6007362265203214E-006           OLP:   -6.6007362265203214E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5929319179556825E-005           OLP:   -1.5929319179557597E-005
  FINITE:
           OLP:   -3.9256184534907702E-004
           BORN:    2.4729965801901037E-003
  MOMENTA (Exyzm): 
           1   2670.6758806629700        0.0000000000000000        0.0000000000000000        2670.6758806629700        0.0000000000000000     
           2   2670.6758806629700       -0.0000000000000000       -0.0000000000000000       -2670.6758806629700        0.0000000000000000     
           3   2670.6758806629700       -1407.8947457728418       -1487.7341018068491        1713.7646532418398        0.0000000000000000     
           4   2670.6758806629700        1407.8947457728418        1487.7341018068491       -1713.7646532418398        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6007362265203214E-006           OLP:   -6.6007362265203214E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5929319179556825E-005           OLP:   -1.5929319179557597E-005
ABS integral  = 0.3930E-06  +/-  0.8617E-09  (   0.219 %)
Integral      = 0.2610E-06  +/-  0.9470E-09  (   0.363 %)
Virtual       = 0.1239E-08  +/-  0.4879E-09  (  39.392 %)
Virtual ratio = -.2867E+00  +/-  0.3871E-03  (   0.135 %)
ABS virtual   = 0.1846E-06  +/-  0.4209E-09  (   0.228 %)
Born          = 0.9501E-06  +/-  0.1601E-08  (   0.168 %)
V  2          = 0.1239E-08  +/-  0.4879E-09  (  39.392 %)
B  2          = 0.9501E-06  +/-  0.1601E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3930E-06  +/-  0.8617E-09  (   0.219 %)
accumulated results Integral      = 0.2610E-06  +/-  0.9470E-09  (   0.363 %)
accumulated results Virtual       = 0.1239E-08  +/-  0.4879E-09  (  39.392 %)
accumulated results Virtual ratio = -.2867E+00  +/-  0.3871E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1846E-06  +/-  0.4209E-09  (   0.228 %)
accumulated results Born          = 0.9501E-06  +/-  0.1601E-08  (   0.168 %)
accumulated results V  2          = 0.1239E-08  +/-  0.4879E-09  (  39.392 %)
accumulated results B  2          = 0.9501E-06  +/-  0.1601E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95005    11311  0.6715E-07  0.4289E-07  0.8456E+00
channel    2 :     1 T    96054    11643  0.6716E-07  0.4377E-07  0.9000E+00
channel    3 :     2 T   185457    21117  0.1302E-06  0.8655E-07  0.7337E+00
channel    4 :     2 T   183361    21463  0.1286E-06  0.8778E-07  0.9290E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9304895791239167E-007  +/-   8.6168475734419734E-010
 Final result:   2.6099341079917801E-007  +/-   9.4697829288321061E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348656
   Stability unknown:                                          0
   Stable PS point:                                       348656
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348656
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348656
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.05078793    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.86912441    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.30741549    
 Time spent in Integrated_CT :    12.4500732    
 Time spent in Virtuals :    697.998657    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.7268219    
 Time spent in N1body_prefactor :    1.11779940    
 Time spent in Adding_alphas_pdf :    13.7985258    
 Time spent in Reweight_scale :    57.4415245    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.7629013    
 Time spent in Applying_cuts :    7.60310745    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    65.8869705    
 Time spent in Other_tasks :    34.6464233    
 Time spent in Total :    942.660095    
Time in seconds: 960



LOG file for integration channel /P0_ddx_emep/all_G1_41, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21429
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          41
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 129437
  with seed                   48
 Ranmar initialization seeds       30233       18537
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.451415D+04 0.451415D+04  1.00
 muF1, muF1_reference: 0.451415D+04 0.451415D+04  1.00
 muF2, muF2_reference: 0.451415D+04 0.451415D+04  1.00
 QES,  QES_reference:  0.451415D+04 0.451415D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4531997108996731E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3421775146062643E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7029247433575134E-006           OLP:   -6.7029247433575211E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6354969896718684E-005           OLP:   -1.6354969896718586E-005
  FINITE:
           OLP:   -3.8137690598598415E-004
           BORN:    2.5112819841209160E-003
  MOMENTA (Exyzm): 
           1   2652.1946999635848        0.0000000000000000        0.0000000000000000        2652.1946999635848        0.0000000000000000     
           2   2652.1946999635848       -0.0000000000000000       -0.0000000000000000       -2652.1946999635848        0.0000000000000000     
           3   2652.1946999635848       -1302.9599648020999       -1523.8962586313814        1736.1371632354158        0.0000000000000000     
           4   2652.1946999635848        1302.9599648020999        1523.8962586313814       -1736.1371632354158        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7029247433575134E-006           OLP:   -6.7029247433575211E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6354969896718684E-005           OLP:   -1.6354969896718586E-005
ABS integral  = 0.3937E-06  +/-  0.8579E-09  (   0.218 %)
Integral      = 0.2602E-06  +/-  0.9444E-09  (   0.363 %)
Virtual       = 0.9910E-09  +/-  0.4895E-09  (  49.397 %)
Virtual ratio = -.2869E+00  +/-  0.3867E-03  (   0.135 %)
ABS virtual   = 0.1849E-06  +/-  0.4226E-09  (   0.229 %)
Born          = 0.9522E-06  +/-  0.1617E-08  (   0.170 %)
V  2          = 0.9910E-09  +/-  0.4895E-09  (  49.397 %)
B  2          = 0.9522E-06  +/-  0.1617E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3937E-06  +/-  0.8579E-09  (   0.218 %)
accumulated results Integral      = 0.2602E-06  +/-  0.9444E-09  (   0.363 %)
accumulated results Virtual       = 0.9910E-09  +/-  0.4895E-09  (  49.397 %)
accumulated results Virtual ratio = -.2869E+00  +/-  0.3867E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1849E-06  +/-  0.4226E-09  (   0.229 %)
accumulated results Born          = 0.9522E-06  +/-  0.1617E-08  (   0.170 %)
accumulated results V  2          = 0.9910E-09  +/-  0.4895E-09  (  49.397 %)
accumulated results B  2          = 0.9522E-06  +/-  0.1617E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95364    11311  0.6721E-07  0.4257E-07  0.8605E+00
channel    2 :     1 T    95881    11643  0.6778E-07  0.4401E-07  0.8925E+00
channel    3 :     2 T   185380    21117  0.1300E-06  0.8545E-07  0.7527E+00
channel    4 :     2 T   183242    21463  0.1287E-06  0.8821E-07  0.9201E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9368617935910850E-007  +/-   8.5787338798176353E-010
 Final result:   2.6023737606643848E-007  +/-   9.4435867006459361E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348599
   Stability unknown:                                          0
   Stable PS point:                                       348599
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348599
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348599
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.95349503    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.90880394    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.15421534    
 Time spent in Integrated_CT :    12.4360352    
 Time spent in Virtuals :    703.818237    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.0239019    
 Time spent in N1body_prefactor :    1.11036229    
 Time spent in Adding_alphas_pdf :    15.1008396    
 Time spent in Reweight_scale :    62.3043556    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.7746925    
 Time spent in Applying_cuts :    7.31416416    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    67.7114105    
 Time spent in Other_tasks :    34.0864868    
 Time spent in Total :    954.697083    
Time in seconds: 969



LOG file for integration channel /P0_ddx_emep/all_G1_42, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21436
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          42
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 132594
  with seed                   48
 Ranmar initialization seeds       30233       21694
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.387096D+04 0.387096D+04  1.00
 muF1, muF1_reference: 0.387096D+04 0.387096D+04  1.00
 muF2, muF2_reference: 0.387096D+04 0.387096D+04  1.00
 QES,  QES_reference:  0.387096D+04 0.387096D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5622317802792854E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3407737704297343E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5918345464979680E-006           OLP:   -6.5918345464979748E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5892621739088253E-005           OLP:   -1.5892621739086806E-005
  FINITE:
           OLP:   -3.9186403885965379E-004
           BORN:    2.4696615242966748E-003
  MOMENTA (Exyzm): 
           1   2657.6955593055891        0.0000000000000000        0.0000000000000000        2657.6955593055891        0.0000000000000000     
           2   2657.6955593055891       -0.0000000000000000       -0.0000000000000000       -2657.6955593055891        0.0000000000000000     
           3   2657.6955593055891       -1258.1267085850402       -1606.9268451348912        1702.4244433990148        0.0000000000000000     
           4   2657.6955593055891        1258.1267085850402        1606.9268451348912       -1702.4244433990148        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5918345464979680E-006           OLP:   -6.5918345464979748E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5892621739088256E-005           OLP:   -1.5892621739086806E-005
ABS integral  = 0.3935E-06  +/-  0.8589E-09  (   0.218 %)
Integral      = 0.2604E-06  +/-  0.9451E-09  (   0.363 %)
Virtual       = -.9002E-11  +/-  0.4795E-09  ( ******* %)
Virtual ratio = -.2874E+00  +/-  0.3859E-03  (   0.134 %)
ABS virtual   = 0.1835E-06  +/-  0.4120E-09  (   0.224 %)
Born          = 0.9478E-06  +/-  0.1593E-08  (   0.168 %)
V  2          = -.9002E-11  +/-  0.4795E-09  ( ******* %)
B  2          = 0.9478E-06  +/-  0.1593E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3935E-06  +/-  0.8589E-09  (   0.218 %)
accumulated results Integral      = 0.2604E-06  +/-  0.9451E-09  (   0.363 %)
accumulated results Virtual       = -.9002E-11  +/-  0.4795E-09  ( ******* %)
accumulated results Virtual ratio = -.2874E+00  +/-  0.3859E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1835E-06  +/-  0.4120E-09  (   0.224 %)
accumulated results Born          = 0.9478E-06  +/-  0.1593E-08  (   0.168 %)
accumulated results V  2          = -.9002E-11  +/-  0.4795E-09  ( ******* %)
accumulated results B  2          = 0.9478E-06  +/-  0.1593E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    94557    11311  0.6681E-07  0.4256E-07  0.8605E+00
channel    2 :     1 T    96068    11643  0.6701E-07  0.4351E-07  0.8959E+00
channel    3 :     2 T   185645    21117  0.1305E-06  0.8607E-07  0.7343E+00
channel    4 :     2 T   183597    21463  0.1292E-06  0.8825E-07  0.8839E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9352426792809555E-007  +/-   8.5888582450565219E-010
 Final result:   2.6039208232091008E-007  +/-   9.4508194808820157E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348233
   Stability unknown:                                          0
   Stable PS point:                                       348233
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348233
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348233
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.99868095    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.86110306    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.15390301    
 Time spent in Integrated_CT :    12.5634155    
 Time spent in Virtuals :    700.849915    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9418316    
 Time spent in N1body_prefactor :    1.07603920    
 Time spent in Adding_alphas_pdf :    14.5487099    
 Time spent in Reweight_scale :    59.5068436    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.1544189    
 Time spent in Applying_cuts :    7.47164774    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    67.3059921    
 Time spent in Other_tasks :    33.9818726    
 Time spent in Total :    948.414307    
Time in seconds: 963



LOG file for integration channel /P0_ddx_emep/all_G1_43, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21433
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          43
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 135751
  with seed                   48
 Ranmar initialization seeds       30233       24851
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.301587D+04 0.301587D+04  1.00
 muF1, muF1_reference: 0.301587D+04 0.301587D+04  1.00
 muF2, muF2_reference: 0.301587D+04 0.301587D+04  1.00
 QES,  QES_reference:  0.301587D+04 0.301587D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7463091779015641E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3278630507688167E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6618191274340882E-006           OLP:   -6.6618191274340916E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6182808773252792E-005           OLP:   -1.6182808773253598E-005
  FINITE:
           OLP:   -3.9147426558757569E-004
           BORN:    2.4958815736035533E-003
  MOMENTA (Exyzm): 
           1   2708.9295079641242        0.0000000000000000        0.0000000000000000        2708.9295079641242        0.0000000000000000     
           2   2708.9295079641242       -0.0000000000000000       -0.0000000000000000       -2708.9295079641242        0.0000000000000000     
           3   2708.9295079641242       -1640.9827192400248       -1245.1584850886684        1759.2768802226840        0.0000000000000000     
           4   2708.9295079641242        1640.9827192400248        1245.1584850886684       -1759.2768802226840        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6618191274340882E-006           OLP:   -6.6618191274340916E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6182808773252792E-005           OLP:   -1.6182808773253598E-005
ABS integral  = 0.3944E-06  +/-  0.8697E-09  (   0.220 %)
Integral      = 0.2610E-06  +/-  0.9553E-09  (   0.366 %)
Virtual       = 0.4404E-09  +/-  0.4871E-09  ( 110.591 %)
Virtual ratio = -.2875E+00  +/-  0.3861E-03  (   0.134 %)
ABS virtual   = 0.1847E-06  +/-  0.4199E-09  (   0.227 %)
Born          = 0.9532E-06  +/-  0.1613E-08  (   0.169 %)
V  2          = 0.4404E-09  +/-  0.4871E-09  ( 110.591 %)
B  2          = 0.9532E-06  +/-  0.1613E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3944E-06  +/-  0.8697E-09  (   0.220 %)
accumulated results Integral      = 0.2610E-06  +/-  0.9553E-09  (   0.366 %)
accumulated results Virtual       = 0.4404E-09  +/-  0.4871E-09  ( 110.591 %)
accumulated results Virtual ratio = -.2875E+00  +/-  0.3861E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1847E-06  +/-  0.4199E-09  (   0.227 %)
accumulated results Born          = 0.9532E-06  +/-  0.1613E-08  (   0.169 %)
accumulated results V  2          = 0.4404E-09  +/-  0.4871E-09  ( 110.591 %)
accumulated results B  2          = 0.9532E-06  +/-  0.1613E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95242    11311  0.6737E-07  0.4291E-07  0.8538E+00
channel    2 :     1 T    96329    11643  0.6758E-07  0.4386E-07  0.8869E+00
channel    3 :     2 T   184749    21117  0.1299E-06  0.8509E-07  0.7333E+00
channel    4 :     2 T   183547    21463  0.1296E-06  0.8914E-07  0.9059E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9444469824416262E-007  +/-   8.6973709511653550E-010
 Final result:   2.6099573983154397E-007  +/-   9.5533810878259341E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348943
   Stability unknown:                                          0
   Stable PS point:                                       348943
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348943
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348943
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.97644067    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.83923721    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.21070099    
 Time spent in Integrated_CT :    12.4688110    
 Time spent in Virtuals :    697.491882    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9673595    
 Time spent in N1body_prefactor :    1.11425161    
 Time spent in Adding_alphas_pdf :    13.8948412    
 Time spent in Reweight_scale :    58.0470848    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.8622646    
 Time spent in Applying_cuts :    7.36577606    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    67.6356812    
 Time spent in Other_tasks :    33.5458984    
 Time spent in Total :    942.420166    
Time in seconds: 960



LOG file for integration channel /P0_ddx_emep/all_G1_44, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21428
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          44
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 138908
  with seed                   48
 Ranmar initialization seeds       30233       28008
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.428562D+04 0.428562D+04  1.00
 muF1, muF1_reference: 0.428562D+04 0.428562D+04  1.00
 muF2, muF2_reference: 0.428562D+04 0.428562D+04  1.00
 QES,  QES_reference:  0.428562D+04 0.428562D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4897039040092706E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3394279545315050E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7226268224033561E-006           OLP:   -6.7226268224033570E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6438136985334115E-005           OLP:   -1.6438136985334325E-005
  FINITE:
           OLP:   -3.8073105552012879E-004
           BORN:    2.5186634598277080E-003
  MOMENTA (Exyzm): 
           1   2662.9821460821672        0.0000000000000000        0.0000000000000000        2662.9821460821672        0.0000000000000000     
           2   2662.9821460821672       -0.0000000000000000       -0.0000000000000000       -2662.9821460821672        0.0000000000000000     
           3   2662.9821460821672       -1647.7653303709990       -1146.5346616148488        1749.8004446494638        0.0000000000000000     
           4   2662.9821460821672        1647.7653303709990        1146.5346616148488       -1749.8004446494638        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7226268224033561E-006           OLP:   -6.7226268224033570E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6438136985334115E-005           OLP:   -1.6438136985334325E-005
ABS integral  = 0.3938E-06  +/-  0.8598E-09  (   0.218 %)
Integral      = 0.2601E-06  +/-  0.9462E-09  (   0.364 %)
Virtual       = -.3422E-09  +/-  0.4785E-09  ( 139.825 %)
Virtual ratio = -.2876E+00  +/-  0.3859E-03  (   0.134 %)
ABS virtual   = 0.1842E-06  +/-  0.4103E-09  (   0.223 %)
Born          = 0.9532E-06  +/-  0.1602E-08  (   0.168 %)
V  2          = -.3422E-09  +/-  0.4785E-09  ( 139.825 %)
B  2          = 0.9532E-06  +/-  0.1602E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3938E-06  +/-  0.8598E-09  (   0.218 %)
accumulated results Integral      = 0.2601E-06  +/-  0.9462E-09  (   0.364 %)
accumulated results Virtual       = -.3422E-09  +/-  0.4785E-09  ( 139.825 %)
accumulated results Virtual ratio = -.2876E+00  +/-  0.3859E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1842E-06  +/-  0.4103E-09  (   0.223 %)
accumulated results Born          = 0.9532E-06  +/-  0.1602E-08  (   0.168 %)
accumulated results V  2          = -.3422E-09  +/-  0.4785E-09  ( 139.825 %)
accumulated results B  2          = 0.9532E-06  +/-  0.1602E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95647    11311  0.6702E-07  0.4225E-07  0.8419E+00
channel    2 :     1 T    96246    11643  0.6722E-07  0.4362E-07  0.8788E+00
channel    3 :     2 T   184876    21117  0.1309E-06  0.8583E-07  0.7292E+00
channel    4 :     2 T   183103    21463  0.1287E-06  0.8843E-07  0.9002E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9380079592081732E-007  +/-   8.5979596695416817E-010
 Final result:   2.6013212272613769E-007  +/-   9.4624240735959483E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    349349
   Stability unknown:                                          0
   Stable PS point:                                       349349
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 349349
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       349349
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.94887745    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.91627598    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.16654062    
 Time spent in Integrated_CT :    12.4054565    
 Time spent in Virtuals :    704.241882    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9284887    
 Time spent in N1body_prefactor :    1.08076453    
 Time spent in Adding_alphas_pdf :    14.2416487    
 Time spent in Reweight_scale :    59.3018837    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.1123581    
 Time spent in Applying_cuts :    7.27364445    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    68.0086823    
 Time spent in Other_tasks :    33.8679810    
 Time spent in Total :    951.494385    
Time in seconds: 966



LOG file for integration channel /P0_ddx_emep/all_G1_45, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21418
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          45
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 142065
  with seed                   48
 Ranmar initialization seeds       30233        1084
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.313068D+04 0.313068D+04  1.00
 muF1, muF1_reference: 0.313068D+04 0.313068D+04  1.00
 muF2, muF2_reference: 0.313068D+04 0.313068D+04  1.00
 QES,  QES_reference:  0.313068D+04 0.313068D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7181653896396030E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3271392910533237E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6258264067151292E-006           OLP:   -6.6258264067151351E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6033128139774352E-005           OLP:   -1.6033128139774355E-005
  FINITE:
           OLP:   -3.9498119179271125E-004
           BORN:    2.4823967330955959E-003
  MOMENTA (Exyzm): 
           1   2711.8361663504029        0.0000000000000000        0.0000000000000000        2711.8361663504029        0.0000000000000000     
           2   2711.8361663504029       -0.0000000000000000       -0.0000000000000000       -2711.8361663504029        0.0000000000000000     
           3   2711.8361663504029       -1970.4572224052631       -642.62123764269882        1748.8257982793918        0.0000000000000000     
           4   2711.8361663504029        1970.4572224052631        642.62123764269882       -1748.8257982793918        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6258264067151292E-006           OLP:   -6.6258264067151351E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6033128139774349E-005           OLP:   -1.6033128139774355E-005
ABS integral  = 0.3937E-06  +/-  0.8995E-09  (   0.228 %)
Integral      = 0.2603E-06  +/-  0.9823E-09  (   0.377 %)
Virtual       = 0.7572E-09  +/-  0.4865E-09  (  64.249 %)
Virtual ratio = -.2872E+00  +/-  0.3866E-03  (   0.135 %)
ABS virtual   = 0.1844E-06  +/-  0.4194E-09  (   0.227 %)
Born          = 0.9495E-06  +/-  0.1610E-08  (   0.170 %)
V  2          = 0.7572E-09  +/-  0.4865E-09  (  64.249 %)
B  2          = 0.9495E-06  +/-  0.1610E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3937E-06  +/-  0.8995E-09  (   0.228 %)
accumulated results Integral      = 0.2603E-06  +/-  0.9823E-09  (   0.377 %)
accumulated results Virtual       = 0.7572E-09  +/-  0.4865E-09  (  64.249 %)
accumulated results Virtual ratio = -.2872E+00  +/-  0.3866E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1844E-06  +/-  0.4194E-09  (   0.227 %)
accumulated results Born          = 0.9495E-06  +/-  0.1610E-08  (   0.170 %)
accumulated results V  2          = 0.7572E-09  +/-  0.4865E-09  (  64.249 %)
accumulated results B  2          = 0.9495E-06  +/-  0.1610E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95948    11311  0.6767E-07  0.4282E-07  0.7657E+00
channel    2 :     1 T    95986    11643  0.6728E-07  0.4381E-07  0.8902E+00
channel    3 :     2 T   185221    21117  0.1307E-06  0.8590E-07  0.7274E+00
channel    4 :     2 T   182715    21463  0.1281E-06  0.8776E-07  0.8893E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9372379996611267E-007  +/-   8.9947293364613854E-010
 Final result:   2.6028960886262075E-007  +/-   9.8230466463828757E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348673
   Stability unknown:                                          0
   Stable PS point:                                       348673
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348673
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348673
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.97320139    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.75901222    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.20718002    
 Time spent in Integrated_CT :    12.3943481    
 Time spent in Virtuals :    694.446167    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.7112007    
 Time spent in N1body_prefactor :    1.08321571    
 Time spent in Adding_alphas_pdf :    14.7820911    
 Time spent in Reweight_scale :    60.5522308    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.3284454    
 Time spent in Applying_cuts :    7.48595381    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    65.7920685    
 Time spent in Other_tasks :    34.1015625    
 Time spent in Total :    941.616638    
Time in seconds: 957



LOG file for integration channel /P0_ddx_emep/all_G1_46, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21424
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          46
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 145222
  with seed                   48
 Ranmar initialization seeds       30233        4241
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.450955D+04 0.450955D+04  1.00
 muF1, muF1_reference: 0.450955D+04 0.450955D+04  1.00
 muF2, muF2_reference: 0.450955D+04 0.450955D+04  1.00
 QES,  QES_reference:  0.450955D+04 0.450955D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4539123993733400E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3254122629641788E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8480305524387091E-006           OLP:   -6.8480305524387116E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6975813671481517E-005           OLP:   -1.6975813671481530E-005
  FINITE:
           OLP:   -3.7435617546412484E-004
           BORN:    2.5656465515432208E-003
  MOMENTA (Exyzm): 
           1   2718.7869697954566        0.0000000000000000        0.0000000000000000        2718.7869697954566        0.0000000000000000     
           2   2718.7869697954566       -0.0000000000000000       -0.0000000000000000       -2718.7869697954566        0.0000000000000000     
           3   2718.7869697954566       -1798.7348616495860       -900.40398971192622        1829.1058307071385        0.0000000000000000     
           4   2718.7869697954566        1798.7348616495860        900.40398971192622       -1829.1058307071385        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8480305524387091E-006           OLP:   -6.8480305524387116E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6975813671481520E-005           OLP:   -1.6975813671481530E-005
ABS integral  = 0.3931E-06  +/-  0.9013E-09  (   0.229 %)
Integral      = 0.2590E-06  +/-  0.9841E-09  (   0.380 %)
Virtual       = -.8773E-10  +/-  0.4839E-09  ( 551.585 %)
Virtual ratio = -.2877E+00  +/-  0.3866E-03  (   0.134 %)
ABS virtual   = 0.1843E-06  +/-  0.4165E-09  (   0.226 %)
Born          = 0.9516E-06  +/-  0.1621E-08  (   0.170 %)
V  2          = -.8773E-10  +/-  0.4839E-09  ( 551.585 %)
B  2          = 0.9516E-06  +/-  0.1621E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3931E-06  +/-  0.9013E-09  (   0.229 %)
accumulated results Integral      = 0.2590E-06  +/-  0.9841E-09  (   0.380 %)
accumulated results Virtual       = -.8773E-10  +/-  0.4839E-09  ( 551.585 %)
accumulated results Virtual ratio = -.2877E+00  +/-  0.3866E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1843E-06  +/-  0.4165E-09  (   0.226 %)
accumulated results Born          = 0.9516E-06  +/-  0.1621E-08  (   0.170 %)
accumulated results V  2          = -.8773E-10  +/-  0.4839E-09  ( 551.585 %)
accumulated results B  2          = 0.9516E-06  +/-  0.1621E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95033    11311  0.6761E-07  0.4258E-07  0.6857E+00
channel    2 :     1 T    96532    11643  0.6775E-07  0.4407E-07  0.8886E+00
channel    3 :     2 T   185047    21117  0.1300E-06  0.8531E-07  0.7559E+00
channel    4 :     2 T   183262    21463  0.1277E-06  0.8704E-07  0.9083E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9307498476593779E-007  +/-   9.0129474310605567E-010
 Final result:   2.5899722625874890E-007  +/-   9.8411890292236290E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348721
   Stability unknown:                                          0
   Stable PS point:                                       348721
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348721
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348721
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.00108910    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.79512024    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.28910255    
 Time spent in Integrated_CT :    12.4229126    
 Time spent in Virtuals :    695.466431    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.6786299    
 Time spent in N1body_prefactor :    1.09269750    
 Time spent in Adding_alphas_pdf :    13.6278057    
 Time spent in Reweight_scale :    57.2997551    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.5666504    
 Time spent in Applying_cuts :    7.54551888    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    65.8355560    
 Time spent in Other_tasks :    34.0729370    
 Time spent in Total :    938.694275    
Time in seconds: 953



LOG file for integration channel /P0_ddx_emep/all_G1_47, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21416
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          47
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 148379
  with seed                   48
 Ranmar initialization seeds       30233        7398
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.445484D+04 0.445484D+04  1.00
 muF1, muF1_reference: 0.445484D+04 0.445484D+04  1.00
 muF2, muF2_reference: 0.445484D+04 0.445484D+04  1.00
 QES,  QES_reference:  0.445484D+04 0.445484D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4624578594370217E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3267194310028497E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8553168227720083E-006           OLP:   -6.8553168227720177E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7007483127558760E-005           OLP:   -1.7007483127558882E-005
  FINITE:
           OLP:   -3.7299959974867059E-004
           BORN:    2.5683763866704290E-003
  MOMENTA (Exyzm): 
           1   2713.5240433622798        0.0000000000000000        0.0000000000000000        2713.5240433622798        0.0000000000000000     
           2   2713.5240433622798       -0.0000000000000000       -0.0000000000000000       -2713.5240433622798        0.0000000000000000     
           3   2713.5240433622798       -1805.8141206514176       -872.12014070771158        1828.0192985122130        0.0000000000000000     
           4   2713.5240433622798        1805.8141206514176        872.12014070771158       -1828.0192985122130        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8553168227720083E-006           OLP:   -6.8553168227720177E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7007483127558764E-005           OLP:   -1.7007483127558882E-005
ABS integral  = 0.3940E-06  +/-  0.8685E-09  (   0.220 %)
Integral      = 0.2605E-06  +/-  0.9541E-09  (   0.366 %)
Virtual       = 0.2038E-09  +/-  0.4853E-09  ( 238.164 %)
Virtual ratio = -.2873E+00  +/-  0.3860E-03  (   0.134 %)
ABS virtual   = 0.1841E-06  +/-  0.4184E-09  (   0.227 %)
Born          = 0.9515E-06  +/-  0.1617E-08  (   0.170 %)
V  2          = 0.2038E-09  +/-  0.4853E-09  ( 238.164 %)
B  2          = 0.9515E-06  +/-  0.1617E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3940E-06  +/-  0.8685E-09  (   0.220 %)
accumulated results Integral      = 0.2605E-06  +/-  0.9541E-09  (   0.366 %)
accumulated results Virtual       = 0.2038E-09  +/-  0.4853E-09  ( 238.164 %)
accumulated results Virtual ratio = -.2873E+00  +/-  0.3860E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1841E-06  +/-  0.4184E-09  (   0.227 %)
accumulated results Born          = 0.9515E-06  +/-  0.1617E-08  (   0.170 %)
accumulated results V  2          = 0.2038E-09  +/-  0.4853E-09  ( 238.164 %)
accumulated results B  2          = 0.9515E-06  +/-  0.1617E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95365    11311  0.6733E-07  0.4270E-07  0.8380E+00
channel    2 :     1 T    96093    11643  0.6757E-07  0.4394E-07  0.8885E+00
channel    3 :     2 T   184675    21117  0.1301E-06  0.8591E-07  0.7332E+00
channel    4 :     2 T   183737    21463  0.1290E-06  0.8790E-07  0.9068E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9398931619639920E-007  +/-   8.6845355558020635E-010
 Final result:   2.6045657327486304E-007  +/-   9.5409682228074679E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348622
   Stability unknown:                                          0
   Stable PS point:                                       348622
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348622
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348622
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.96854019    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.72933006    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.20841980    
 Time spent in Integrated_CT :    12.5078125    
 Time spent in Virtuals :    697.498352    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.7264538    
 Time spent in N1body_prefactor :    1.11606741    
 Time spent in Adding_alphas_pdf :    14.1295013    
 Time spent in Reweight_scale :    58.5842056    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.6189384    
 Time spent in Applying_cuts :    7.59411621    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    65.7690277    
 Time spent in Other_tasks :    34.0966187    
 Time spent in Total :    942.547485    
Time in seconds: 959



LOG file for integration channel /P0_ddx_emep/all_G1_48, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21423
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          48
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 151536
  with seed                   48
 Ranmar initialization seeds       30233       10555
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.208346D+04 0.208346D+04  1.00
 muF1, muF1_reference: 0.208346D+04 0.208346D+04  1.00
 muF2, muF2_reference: 0.208346D+04 0.208346D+04  1.00
 QES,  QES_reference:  0.208346D+04 0.208346D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   8.0364473232179309E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3345958908318826E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5806096847187609E-006           OLP:   -6.5806096847187618E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5846563378311935E-005           OLP:   -1.5846563378311762E-005
  FINITE:
           OLP:   -3.9552912901728469E-004
           BORN:    2.4654560775343036E-003
  MOMENTA (Exyzm): 
           1   2682.0665020866768        0.0000000000000000        0.0000000000000000        2682.0665020866768        0.0000000000000000     
           2   2682.0665020866768       -0.0000000000000000       -0.0000000000000000       -2682.0665020866768        0.0000000000000000     
           3   2682.0665020866768       -1324.4343290274387       -1581.3874072075328        1714.2252763375466        0.0000000000000000     
           4   2682.0665020866768        1324.4343290274387        1581.3874072075328       -1714.2252763375466        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5806096847187609E-006           OLP:   -6.5806096847187618E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5846563378311935E-005           OLP:   -1.5846563378311762E-005
ABS integral  = 0.3938E-06  +/-  0.1053E-08  (   0.267 %)
Integral      = 0.2588E-06  +/-  0.1125E-08  (   0.435 %)
Virtual       = 0.1232E-09  +/-  0.4839E-09  ( 392.790 %)
Virtual ratio = -.2872E+00  +/-  0.3863E-03  (   0.135 %)
ABS virtual   = 0.1844E-06  +/-  0.4165E-09  (   0.226 %)
Born          = 0.9511E-06  +/-  0.1602E-08  (   0.168 %)
V  2          = 0.1232E-09  +/-  0.4839E-09  ( 392.790 %)
B  2          = 0.9511E-06  +/-  0.1602E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3938E-06  +/-  0.1053E-08  (   0.267 %)
accumulated results Integral      = 0.2588E-06  +/-  0.1125E-08  (   0.435 %)
accumulated results Virtual       = 0.1232E-09  +/-  0.4839E-09  ( 392.790 %)
accumulated results Virtual ratio = -.2872E+00  +/-  0.3863E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1844E-06  +/-  0.4165E-09  (   0.226 %)
accumulated results Born          = 0.9511E-06  +/-  0.1602E-08  (   0.168 %)
accumulated results V  2          = 0.1232E-09  +/-  0.4839E-09  ( 392.790 %)
accumulated results B  2          = 0.9511E-06  +/-  0.1602E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95792    11311  0.6797E-07  0.4284E-07  0.8375E+00
channel    2 :     1 T    95923    11643  0.6689E-07  0.4387E-07  0.9047E+00
channel    3 :     2 T   185230    21117  0.1302E-06  0.8534E-07  0.7004E+00
channel    4 :     2 T   182927    21463  0.1287E-06  0.8675E-07  0.6323E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9378480801280962E-007  +/-   1.0531833077702579E-009
 Final result:   2.5879644106606367E-007  +/-   1.1254048965365331E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348732
   Stability unknown:                                          0
   Stable PS point:                                       348732
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348732
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348732
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.97978675    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.78555679    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.28944540    
 Time spent in Integrated_CT :    12.5319214    
 Time spent in Virtuals :    698.797546    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.7672749    
 Time spent in N1body_prefactor :    1.12672853    
 Time spent in Adding_alphas_pdf :    13.6835642    
 Time spent in Reweight_scale :    57.9248962    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.8220348    
 Time spent in Applying_cuts :    7.62637615    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    65.6398010    
 Time spent in Other_tasks :    34.4441528    
 Time spent in Total :    943.419128    
Time in seconds: 961



LOG file for integration channel /P0_ddx_emep/all_G1_49, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21427
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          49
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 154693
  with seed                   48
 Ranmar initialization seeds       30233       13712
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441398D+04 0.441398D+04  1.00
 muF1, muF1_reference: 0.441398D+04 0.441398D+04  1.00
 muF2, muF2_reference: 0.441398D+04 0.441398D+04  1.00
 QES,  QES_reference:  0.441398D+04 0.441398D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4689236824433319E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3178390009406069E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7746658079632805E-006           OLP:   -6.7746658079632813E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6659677082071705E-005           OLP:   -1.6659677082071485E-005
  FINITE:
           OLP:   -3.8527641308770406E-004
           BORN:    2.5381601082181101E-003
  MOMENTA (Exyzm): 
           1   2749.5178789642137        0.0000000000000000        0.0000000000000000        2749.5178789642137        0.0000000000000000     
           2   2749.5178789642137       -0.0000000000000000       -0.0000000000000000       -2749.5178789642137        0.0000000000000000     
           3   2749.5178789642137       -1253.0913820631840       -1631.0359547993201        1824.6457927758795        0.0000000000000000     
           4   2749.5178789642137        1253.0913820631840        1631.0359547993201       -1824.6457927758795        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7746658079632805E-006           OLP:   -6.7746658079632813E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6659677082071705E-005           OLP:   -1.6659677082071485E-005
ABS integral  = 0.3937E-06  +/-  0.8694E-09  (   0.221 %)
Integral      = 0.2602E-06  +/-  0.9549E-09  (   0.367 %)
Virtual       = 0.4953E-09  +/-  0.4870E-09  (  98.321 %)
Virtual ratio = -.2874E+00  +/-  0.3861E-03  (   0.134 %)
ABS virtual   = 0.1849E-06  +/-  0.4197E-09  (   0.227 %)
Born          = 0.9534E-06  +/-  0.1619E-08  (   0.170 %)
V  2          = 0.4953E-09  +/-  0.4870E-09  (  98.321 %)
B  2          = 0.9534E-06  +/-  0.1619E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3937E-06  +/-  0.8694E-09  (   0.221 %)
accumulated results Integral      = 0.2602E-06  +/-  0.9549E-09  (   0.367 %)
accumulated results Virtual       = 0.4953E-09  +/-  0.4870E-09  (  98.321 %)
accumulated results Virtual ratio = -.2874E+00  +/-  0.3861E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1849E-06  +/-  0.4197E-09  (   0.227 %)
accumulated results Born          = 0.9534E-06  +/-  0.1619E-08  (   0.170 %)
accumulated results V  2          = 0.4953E-09  +/-  0.4870E-09  (  98.321 %)
accumulated results B  2          = 0.9534E-06  +/-  0.1619E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2          3                         4
channel    1 :     1 T    95107    11311  0.6722E-07  0.4280E-07  0.8595E+00
channel    2 :     1 T    96280    11643  0.6760E-07  0.4408E-07  0.8909E+00
channel    3 :     2 T   184775    21117  0.1300E-06  0.8538E-07  0.7532E+00
channel    4 :     2 T   183707    21463  0.1289E-06  0.8794E-07  0.8817E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9366803786228868E-007  +/-   8.6941284612619530E-010
 Final result:   2.6020265050185605E-007  +/-   9.5485706373825799E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348789
   Stability unknown:                                          0
   Stable PS point:                                       348789
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348789
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348789
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.92947841    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.82497787    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.09296799    
 Time spent in Integrated_CT :    12.3537598    
 Time spent in Virtuals :    704.771606    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9452219    
 Time spent in N1body_prefactor :    1.08431470    
 Time spent in Adding_alphas_pdf :    15.2989483    
 Time spent in Reweight_scale :    62.1926651    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.5975151    
 Time spent in Applying_cuts :    7.28592014    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    68.2078323    
 Time spent in Other_tasks :    33.3068237    
 Time spent in Total :    954.892090    
Time in seconds: 969



LOG file for integration channel /P0_ddx_emep/all_G1_50, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21426
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          50
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 157850
  with seed                   48
 Ranmar initialization seeds       30233       16869
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.409603D+04 0.409603D+04  1.00
 muF1, muF1_reference: 0.409603D+04 0.409603D+04  1.00
 muF2, muF2_reference: 0.409603D+04 0.409603D+04  1.00
 QES,  QES_reference:  0.409603D+04 0.409603D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5217833681954935E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3354196122801613E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6922909064500330E-006           OLP:   -6.6922909064500380E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6310328369390623E-005           OLP:   -1.6310328369390691E-005
  FINITE:
           OLP:   -3.8534353173164495E-004
           BORN:    2.5072979675803304E-003
  MOMENTA (Exyzm): 
           1   2678.8017381197028        0.0000000000000000        0.0000000000000000        2678.8017381197028        0.0000000000000000     
           2   2678.8017381197028       -0.0000000000000000       -0.0000000000000000       -2678.8017381197028        0.0000000000000000     
           3   2678.8017381197028       -2003.9529897445539       -312.57645627808785        1749.9848930855483        0.0000000000000000     
           4   2678.8017381197028        2003.9529897445539        312.57645627808785       -1749.9848930855483        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6922909064500330E-006           OLP:   -6.6922909064500380E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6310328369390620E-005           OLP:   -1.6310328369390691E-005
ABS integral  = 0.3941E-06  +/-  0.8892E-09  (   0.226 %)
Integral      = 0.2598E-06  +/-  0.9734E-09  (   0.375 %)
Virtual       = 0.4907E-09  +/-  0.4886E-09  (  99.567 %)
Virtual ratio = -.2871E+00  +/-  0.3862E-03  (   0.134 %)
ABS virtual   = 0.1848E-06  +/-  0.4216E-09  (   0.228 %)
Born          = 0.9545E-06  +/-  0.1629E-08  (   0.171 %)
V  2          = 0.4907E-09  +/-  0.4886E-09  (  99.567 %)
B  2          = 0.9545E-06  +/-  0.1629E-08  (   0.171 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3941E-06  +/-  0.8892E-09  (   0.226 %)
accumulated results Integral      = 0.2598E-06  +/-  0.9734E-09  (   0.375 %)
accumulated results Virtual       = 0.4907E-09  +/-  0.4886E-09  (  99.567 %)
accumulated results Virtual ratio = -.2871E+00  +/-  0.3862E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1848E-06  +/-  0.4216E-09  (   0.228 %)
accumulated results Born          = 0.9545E-06  +/-  0.1629E-08  (   0.171 %)
accumulated results V  2          = 0.4907E-09  +/-  0.4886E-09  (  99.567 %)
accumulated results B  2          = 0.9545E-06  +/-  0.1629E-08  (   0.171 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95522    11311  0.6724E-07  0.4281E-07  0.8827E+00
channel    2 :     1 T    95868    11643  0.6719E-07  0.4311E-07  0.8861E+00
channel    3 :     2 T   185042    21117  0.1307E-06  0.8563E-07  0.7192E+00
channel    4 :     2 T   183441    21463  0.1289E-06  0.8826E-07  0.8731E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9412260483626362E-007  +/-   8.8921380578321924E-010
 Final result:   2.5981123014214569E-007  +/-   9.7343601692545130E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    349046
   Stability unknown:                                          0
   Stable PS point:                                       349046
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 349046
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       349046
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.93923533    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.78844547    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.12663269    
 Time spent in Integrated_CT :    12.3494873    
 Time spent in Virtuals :    699.330933    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9156952    
 Time spent in N1body_prefactor :    1.06683981    
 Time spent in Adding_alphas_pdf :    13.7817745    
 Time spent in Reweight_scale :    58.1263885    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.6950607    
 Time spent in Applying_cuts :    7.29602098    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    66.5428696    
 Time spent in Other_tasks :    33.1259766    
 Time spent in Total :    942.085388    
Time in seconds: 959



LOG file for integration channel /P0_ddx_emep/all_G1_51, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21417
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          51
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 161007
  with seed                   48
 Ranmar initialization seeds       30233       20026
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.393880D+04 0.393880D+04  1.00
 muF1, muF1_reference: 0.393880D+04 0.393880D+04  1.00
 muF2, muF2_reference: 0.393880D+04 0.393880D+04  1.00
 QES,  QES_reference:  0.393880D+04 0.393880D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5497509170106877E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3258410981830446E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8359351954067850E-006           OLP:   -6.8359351954067858E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6923320931121807E-005           OLP:   -1.6923320931122010E-005
  FINITE:
           OLP:   -3.7543922170629957E-004
           BORN:    2.5611149696787693E-003
  MOMENTA (Exyzm): 
           1   2717.0590574794342        0.0000000000000000        0.0000000000000000        2717.0590574794342        0.0000000000000000     
           2   2717.0590574794342       -0.0000000000000000       -0.0000000000000000       -2717.0590574794342        0.0000000000000000     
           3   2717.0590574794342       -1948.2468476017696       -510.19407164866715        1823.8547507669991        0.0000000000000000     
           4   2717.0590574794342        1948.2468476017696        510.19407164866715       -1823.8547507669991        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8359351954067850E-006           OLP:   -6.8359351954067858E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6923320931121810E-005           OLP:   -1.6923320931122010E-005
ABS integral  = 0.3943E-06  +/-  0.8659E-09  (   0.220 %)
Integral      = 0.2610E-06  +/-  0.9518E-09  (   0.365 %)
Virtual       = 0.8547E-09  +/-  0.4929E-09  (  57.669 %)
Virtual ratio = -.2868E+00  +/-  0.3857E-03  (   0.134 %)
ABS virtual   = 0.1847E-06  +/-  0.4266E-09  (   0.231 %)
Born          = 0.9527E-06  +/-  0.1617E-08  (   0.170 %)
V  2          = 0.8547E-09  +/-  0.4929E-09  (  57.669 %)
B  2          = 0.9527E-06  +/-  0.1617E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3943E-06  +/-  0.8659E-09  (   0.220 %)
accumulated results Integral      = 0.2610E-06  +/-  0.9518E-09  (   0.365 %)
accumulated results Virtual       = 0.8547E-09  +/-  0.4929E-09  (  57.669 %)
accumulated results Virtual ratio = -.2868E+00  +/-  0.3857E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1847E-06  +/-  0.4266E-09  (   0.231 %)
accumulated results Born          = 0.9527E-06  +/-  0.1617E-08  (   0.170 %)
accumulated results V  2          = 0.8547E-09  +/-  0.4929E-09  (  57.669 %)
accumulated results B  2          = 0.9527E-06  +/-  0.1617E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95504    11311  0.6756E-07  0.4289E-07  0.8699E+00
channel    2 :     1 T    95876    11643  0.6694E-07  0.4334E-07  0.8972E+00
channel    3 :     2 T   184961    21117  0.1303E-06  0.8571E-07  0.7348E+00
channel    4 :     2 T   183535    21463  0.1295E-06  0.8907E-07  0.9303E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9429062326583134E-007  +/-   8.6594567085829588E-010
 Final result:   2.6101351344885019E-007  +/-   9.5176497271472141E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    349157
   Stability unknown:                                          0
   Stable PS point:                                       349157
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 349157
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       349157
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.98252630    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.77901077    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.25054932    
 Time spent in Integrated_CT :    12.5297241    
 Time spent in Virtuals :    692.497620    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.6793575    
 Time spent in N1body_prefactor :    1.09328437    
 Time spent in Adding_alphas_pdf :    13.7316494    
 Time spent in Reweight_scale :    57.3626862    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.4245720    
 Time spent in Applying_cuts :    7.50098610    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    66.5736542    
 Time spent in Other_tasks :    34.0166626    
 Time spent in Total :    936.422241    
Time in seconds: 950



LOG file for integration channel /P0_ddx_emep/all_G1_52, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       21434
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          52
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 164164
  with seed                   48
 Ranmar initialization seeds       30233       23183
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443261D+04 0.443261D+04  1.00
 muF1, muF1_reference: 0.443261D+04 0.443261D+04  1.00
 muF2, muF2_reference: 0.443261D+04 0.443261D+04  1.00
 QES,  QES_reference:  0.443261D+04 0.443261D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4659672145384715E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3296373194405046E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7425131395060511E-006           OLP:   -6.7425131395060418E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6522524512093090E-005           OLP:   -1.6522524512093266E-005
  FINITE:
           OLP:   -3.8315742470467330E-004
           BORN:    2.5261139611808679E-003
  MOMENTA (Exyzm): 
           1   2701.8195758747047        0.0000000000000000        0.0000000000000000        2701.8195758747047        0.0000000000000000     
           2   2701.8195758747047       -0.0000000000000000       -0.0000000000000000       -2701.8195758747047        0.0000000000000000     
           3   2701.8195758747047       -2030.6567216059477       -20.779227172808913        1782.0860033383503        0.0000000000000000     
           4   2701.8195758747047        2030.6567216059477        20.779227172808913       -1782.0860033383503        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7425131395060511E-006           OLP:   -6.7425131395060418E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6522524512093093E-005           OLP:   -1.6522524512093266E-005
ABS integral  = 0.3937E-06  +/-  0.8661E-09  (   0.220 %)
Integral      = 0.2599E-06  +/-  0.9520E-09  (   0.366 %)
Virtual       = 0.4164E-09  +/-  0.4880E-09  ( 117.196 %)
Virtual ratio = -.2877E+00  +/-  0.3860E-03  (   0.134 %)
ABS virtual   = 0.1844E-06  +/-  0.4212E-09  (   0.228 %)
Born          = 0.9515E-06  +/-  0.1603E-08  (   0.168 %)
V  2          = 0.4164E-09  +/-  0.4880E-09  ( 117.196 %)
B  2          = 0.9515E-06  +/-  0.1603E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3937E-06  +/-  0.8661E-09  (   0.220 %)
accumulated results Integral      = 0.2599E-06  +/-  0.9520E-09  (   0.366 %)
accumulated results Virtual       = 0.4164E-09  +/-  0.4880E-09  ( 117.196 %)
accumulated results Virtual ratio = -.2877E+00  +/-  0.3860E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1844E-06  +/-  0.4212E-09  (   0.228 %)
accumulated results Born          = 0.9515E-06  +/-  0.1603E-08  (   0.168 %)
accumulated results V  2          = 0.4164E-09  +/-  0.4880E-09  ( 117.196 %)
accumulated results B  2          = 0.9515E-06  +/-  0.1603E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95798    11311  0.6782E-07  0.4281E-07  0.8297E+00
channel    2 :     1 T    96201    11643  0.6749E-07  0.4356E-07  0.8904E+00
channel    3 :     2 T   184602    21117  0.1299E-06  0.8564E-07  0.7453E+00
channel    4 :     2 T   183270    21463  0.1284E-06  0.8785E-07  0.9182E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9367171226504611E-007  +/-   8.6611485559090519E-010
 Final result:   2.5987051615836814E-007  +/-   9.5201993144678696E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348928
   Stability unknown:                                          0
   Stable PS point:                                       348928
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348928
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348928
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.01726961    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.76213932    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.23193026    
 Time spent in Integrated_CT :    12.4783936    
 Time spent in Virtuals :    694.964233    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.8634596    
 Time spent in N1body_prefactor :    1.08804929    
 Time spent in Adding_alphas_pdf :    14.6817741    
 Time spent in Reweight_scale :    61.5982018    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.3405647    
 Time spent in Applying_cuts :    7.66064215    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    65.5051117    
 Time spent in Other_tasks :    34.4025879    
 Time spent in Total :    943.594421    
Time in seconds: 961



LOG file for integration channel /P0_ddx_emep/all_G1_53, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37298
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          53
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 167321
  with seed                   48
 Ranmar initialization seeds       30233       26340
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.449825D+04 0.449825D+04  1.00
 muF1, muF1_reference: 0.449825D+04 0.449825D+04  1.00
 muF2, muF2_reference: 0.449825D+04 0.449825D+04  1.00
 QES,  QES_reference:  0.449825D+04 0.449825D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4556672198078364E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3346252127623121E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6415240044243153E-006           OLP:   -6.6415240044243204E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6098186332829423E-005           OLP:   -1.6098186332829172E-005
  FINITE:
           OLP:   -3.9028375080946338E-004
           BORN:    2.4882779112126744E-003
  MOMENTA (Exyzm): 
           1   2681.9502055391508        0.0000000000000000        0.0000000000000000        2681.9502055391508        0.0000000000000000     
           2   2681.9502055391508       -0.0000000000000000       -0.0000000000000000       -2681.9502055391508        0.0000000000000000     
           3   2681.9502055391508       -1158.3591037560332       -1685.6192801182935        1734.8627421875481        0.0000000000000000     
           4   2681.9502055391508        1158.3591037560332        1685.6192801182935       -1734.8627421875481        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6415240044243153E-006           OLP:   -6.6415240044243204E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6098186332829423E-005           OLP:   -1.6098186332829172E-005
ABS integral  = 0.3943E-06  +/-  0.8641E-09  (   0.219 %)
Integral      = 0.2623E-06  +/-  0.9495E-09  (   0.362 %)
Virtual       = 0.1146E-08  +/-  0.4895E-09  (  42.698 %)
Virtual ratio = -.2868E+00  +/-  0.3865E-03  (   0.135 %)
ABS virtual   = 0.1849E-06  +/-  0.4225E-09  (   0.228 %)
Born          = 0.9523E-06  +/-  0.1605E-08  (   0.169 %)
V  2          = 0.1146E-08  +/-  0.4895E-09  (  42.698 %)
B  2          = 0.9523E-06  +/-  0.1605E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3943E-06  +/-  0.8641E-09  (   0.219 %)
accumulated results Integral      = 0.2623E-06  +/-  0.9495E-09  (   0.362 %)
accumulated results Virtual       = 0.1146E-08  +/-  0.4895E-09  (  42.698 %)
accumulated results Virtual ratio = -.2868E+00  +/-  0.3865E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1849E-06  +/-  0.4225E-09  (   0.228 %)
accumulated results Born          = 0.9523E-06  +/-  0.1605E-08  (   0.169 %)
accumulated results V  2          = 0.1146E-08  +/-  0.4895E-09  (  42.698 %)
accumulated results B  2          = 0.9523E-06  +/-  0.1605E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    94890    11311  0.6717E-07  0.4293E-07  0.8928E+00
channel    2 :     1 T    96798    11643  0.6762E-07  0.4394E-07  0.8934E+00
channel    3 :     2 T   185107    21117  0.1309E-06  0.8664E-07  0.7151E+00
channel    4 :     2 T   183075    21463  0.1286E-06  0.8874E-07  0.9322E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9434974670564511E-007  +/-   8.6406608034198201E-010
 Final result:   2.6225567260363188E-007  +/-   9.4948785194905893E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348797
   Stability unknown:                                          0
   Stable PS point:                                       348797
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348797
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348797
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.09764302    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.41988564    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.81566668    
 Time spent in Integrated_CT :    8.06613159    
 Time spent in Virtuals :    459.937836    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.90694332    
 Time spent in N1body_prefactor :   0.620218337    
 Time spent in Adding_alphas_pdf :    9.22548485    
 Time spent in Reweight_scale :    35.6413460    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.6135483    
 Time spent in Applying_cuts :    4.62416840    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    33.8273315    
 Time spent in Other_tasks :    18.8287354    
 Time spent in Total :    601.624878    
Time in seconds: 616



LOG file for integration channel /P0_ddx_emep/all_G1_54, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37301
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          54
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 170478
  with seed                   48
 Ranmar initialization seeds       30233       29497
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.447224D+04 0.447224D+04  1.00
 muF1, muF1_reference: 0.447224D+04 0.447224D+04  1.00
 muF2, muF2_reference: 0.447224D+04 0.447224D+04  1.00
 QES,  QES_reference:  0.447224D+04 0.447224D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4597263465693744E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3304293520338029E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6747921686852712E-006           OLP:   -6.6747921686852738E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6237007464916205E-005           OLP:   -1.6237007464916252E-005
  FINITE:
           OLP:   -3.8915978480182886E-004
           BORN:    2.5007419839498933E-003
  MOMENTA (Exyzm): 
           1   2698.6528573830724        0.0000000000000000        0.0000000000000000        2698.6528573830724        0.0000000000000000     
           2   2698.6528573830724       -0.0000000000000000       -0.0000000000000000       -2698.6528573830724        0.0000000000000000     
           3   2698.6528573830724       -1976.7335270060862       -536.79896553351080        1757.0141372436512        0.0000000000000000     
           4   2698.6528573830724        1976.7335270060862        536.79896553351080       -1757.0141372436512        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6747921686852712E-006           OLP:   -6.6747921686852738E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6237007464916205E-005           OLP:   -1.6237007464916252E-005
ABS integral  = 0.3941E-06  +/-  0.8756E-09  (   0.222 %)
Integral      = 0.2615E-06  +/-  0.9601E-09  (   0.367 %)
Virtual       = 0.7373E-09  +/-  0.4874E-09  (  66.107 %)
Virtual ratio = -.2878E+00  +/-  0.3857E-03  (   0.134 %)
ABS virtual   = 0.1849E-06  +/-  0.4201E-09  (   0.227 %)
Born          = 0.9526E-06  +/-  0.1599E-08  (   0.168 %)
V  2          = 0.7373E-09  +/-  0.4874E-09  (  66.107 %)
B  2          = 0.9526E-06  +/-  0.1599E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3941E-06  +/-  0.8756E-09  (   0.222 %)
accumulated results Integral      = 0.2615E-06  +/-  0.9601E-09  (   0.367 %)
accumulated results Virtual       = 0.7373E-09  +/-  0.4874E-09  (  66.107 %)
accumulated results Virtual ratio = -.2878E+00  +/-  0.3857E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1849E-06  +/-  0.4201E-09  (   0.227 %)
accumulated results Born          = 0.9526E-06  +/-  0.1599E-08  (   0.168 %)
accumulated results V  2          = 0.7373E-09  +/-  0.4874E-09  (  66.107 %)
accumulated results B  2          = 0.9526E-06  +/-  0.1599E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95168    11311  0.6653E-07  0.4266E-07  0.8950E+00
channel    2 :     1 T    96016    11643  0.6813E-07  0.4435E-07  0.8874E+00
channel    3 :     2 T   185098    21117  0.1308E-06  0.8638E-07  0.7000E+00
channel    4 :     2 T   183593    21463  0.1286E-06  0.8813E-07  0.9153E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9408726911650721E-007  +/-   8.7558261209767217E-010
 Final result:   2.6151812700946364E-007  +/-   9.6014699883307306E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348982
   Stability unknown:                                          0
   Stable PS point:                                       348982
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348982
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348982
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17879915    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.37418985    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.81410265    
 Time spent in Integrated_CT :    8.44937134    
 Time spent in Virtuals :    490.204590    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.98022223    
 Time spent in N1body_prefactor :   0.583866239    
 Time spent in Adding_alphas_pdf :    9.16046333    
 Time spent in Reweight_scale :    34.9977455    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.2437525    
 Time spent in Applying_cuts :    4.57839489    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.1259766    
 Time spent in Other_tasks :    19.0416870    
 Time spent in Total :    634.733154    
Time in seconds: 650



LOG file for integration channel /P0_ddx_emep/all_G1_55, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37307
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          55
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 173635
  with seed                   48
 Ranmar initialization seeds       30233        2573
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427884D+04 0.427884D+04  1.00
 muF1, muF1_reference: 0.427884D+04 0.427884D+04  1.00
 muF2, muF2_reference: 0.427884D+04 0.427884D+04  1.00
 QES,  QES_reference:  0.427884D+04 0.427884D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4908221869479097E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3463521692624129E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6167841535510613E-006           OLP:   -6.6167841535510563E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5995470148099009E-005           OLP:   -1.5995470148099070E-005
  FINITE:
           OLP:   -3.8728683764311116E-004
           BORN:    2.4790090108196914E-003
  MOMENTA (Exyzm): 
           1   2635.9152228445687        0.0000000000000000        0.0000000000000000        2635.9152228445687        0.0000000000000000     
           2   2635.9152228445687       -0.0000000000000000       -0.0000000000000000       -2635.9152228445687        0.0000000000000000     
           3   2635.9152228445687       -2016.4604787120879       -52.906431560812166        1696.8020241959437        0.0000000000000000     
           4   2635.9152228445687        2016.4604787120879        52.906431560812166       -1696.8020241959437        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6167841535510613E-006           OLP:   -6.6167841535510563E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5995470148099009E-005           OLP:   -1.5995470148099070E-005
ABS integral  = 0.3939E-06  +/-  0.8618E-09  (   0.219 %)
Integral      = 0.2605E-06  +/-  0.9479E-09  (   0.364 %)
Virtual       = 0.6433E-09  +/-  0.4853E-09  (  75.445 %)
Virtual ratio = -.2876E+00  +/-  0.3857E-03  (   0.134 %)
ABS virtual   = 0.1842E-06  +/-  0.4182E-09  (   0.227 %)
Born          = 0.9514E-06  +/-  0.1596E-08  (   0.168 %)
V  2          = 0.6433E-09  +/-  0.4853E-09  (  75.445 %)
B  2          = 0.9514E-06  +/-  0.1596E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3939E-06  +/-  0.8618E-09  (   0.219 %)
accumulated results Integral      = 0.2605E-06  +/-  0.9479E-09  (   0.364 %)
accumulated results Virtual       = 0.6433E-09  +/-  0.4853E-09  (  75.445 %)
accumulated results Virtual ratio = -.2876E+00  +/-  0.3857E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1842E-06  +/-  0.4182E-09  (   0.227 %)
accumulated results Born          = 0.9514E-06  +/-  0.1596E-08  (   0.168 %)
accumulated results V  2          = 0.6433E-09  +/-  0.4853E-09  (  75.445 %)
accumulated results B  2          = 0.9514E-06  +/-  0.1596E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    94971    11311  0.6672E-07  0.4176E-07  0.8144E+00
channel    2 :     1 T    96532    11643  0.6818E-07  0.4476E-07  0.8753E+00
channel    3 :     2 T   185278    21117  0.1311E-06  0.8659E-07  0.7514E+00
channel    4 :     2 T   183087    21463  0.1279E-06  0.8739E-07  0.9225E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9387008467216432E-007  +/-   8.6176959197815306E-010
 Final result:   2.6050097553871256E-007  +/-   9.4790658690640551E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348996
   Stability unknown:                                          0
   Stable PS point:                                       348996
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348996
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348996
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.18671370    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.56171560    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.82384825    
 Time spent in Integrated_CT :    8.42889404    
 Time spent in Virtuals :    490.627136    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.13002777    
 Time spent in N1body_prefactor :   0.596081793    
 Time spent in Adding_alphas_pdf :    9.08882332    
 Time spent in Reweight_scale :    34.9241028    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.0216703    
 Time spent in Applying_cuts :    4.60291481    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2174797    
 Time spent in Other_tasks :    19.1477661    
 Time spent in Total :    635.357117    
Time in seconds: 651



LOG file for integration channel /P0_ddx_emep/all_G1_56, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37306
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          56
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 176792
  with seed                   48
 Ranmar initialization seeds       30233        5730
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.447386D+04 0.447386D+04  1.00
 muF1, muF1_reference: 0.447386D+04 0.447386D+04  1.00
 muF2, muF2_reference: 0.447386D+04 0.447386D+04  1.00
 QES,  QES_reference:  0.447386D+04 0.447386D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4594728392604309E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3455411494514081E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6829589210501077E-006           OLP:   -6.6829589210501051E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6271035741119419E-005           OLP:   -1.6271035741119337E-005
  FINITE:
           OLP:   -3.8174888507779665E-004
           BORN:    2.5038016957723954E-003
  MOMENTA (Exyzm): 
           1   2639.0685598343807        0.0000000000000000        0.0000000000000000        2639.0685598343807        0.0000000000000000     
           2   2639.0685598343807       -0.0000000000000000       -0.0000000000000000       -2639.0685598343807        0.0000000000000000     
           3   2639.0685598343807       -1544.3977318704949       -1272.0116476801591        1720.9023439653949        0.0000000000000000     
           4   2639.0685598343807        1544.3977318704949        1272.0116476801591       -1720.9023439653949        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6829589210501077E-006           OLP:   -6.6829589210501051E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6271035741119419E-005           OLP:   -1.6271035741119337E-005
ABS integral  = 0.3947E-06  +/-  0.8947E-09  (   0.227 %)
Integral      = 0.2609E-06  +/-  0.9783E-09  (   0.375 %)
Virtual       = 0.7070E-09  +/-  0.4819E-09  (  68.169 %)
Virtual ratio = -.2870E+00  +/-  0.3866E-03  (   0.135 %)
ABS virtual   = 0.1842E-06  +/-  0.4143E-09  (   0.225 %)
Born          = 0.9506E-06  +/-  0.1599E-08  (   0.168 %)
V  2          = 0.7070E-09  +/-  0.4819E-09  (  68.169 %)
B  2          = 0.9506E-06  +/-  0.1599E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3947E-06  +/-  0.8947E-09  (   0.227 %)
accumulated results Integral      = 0.2609E-06  +/-  0.9783E-09  (   0.375 %)
accumulated results Virtual       = 0.7070E-09  +/-  0.4819E-09  (  68.169 %)
accumulated results Virtual ratio = -.2870E+00  +/-  0.3866E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1842E-06  +/-  0.4143E-09  (   0.225 %)
accumulated results Born          = 0.9506E-06  +/-  0.1599E-08  (   0.168 %)
accumulated results V  2          = 0.7070E-09  +/-  0.4819E-09  (  68.169 %)
accumulated results B  2          = 0.9506E-06  +/-  0.1599E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95253    11311  0.6762E-07  0.4335E-07  0.8526E+00
channel    2 :     1 T    96094    11643  0.6731E-07  0.4397E-07  0.9044E+00
channel    3 :     2 T   184931    21117  0.1308E-06  0.8555E-07  0.6861E+00
channel    4 :     2 T   183599    21463  0.1289E-06  0.8806E-07  0.8699E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9467998165861398E-007  +/-   8.9468915971174846E-010
 Final result:   2.6092504565267268E-007  +/-   9.7831207077434013E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348394
   Stability unknown:                                          0
   Stable PS point:                                       348394
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348394
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348394
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17953253    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.29961586    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.72312450    
 Time spent in Integrated_CT :    8.30221558    
 Time spent in Virtuals :    487.849426    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.90746307    
 Time spent in N1body_prefactor :   0.585865557    
 Time spent in Adding_alphas_pdf :    9.31249142    
 Time spent in Reweight_scale :    35.3529282    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.8917675    
 Time spent in Applying_cuts :    4.53781223    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.8683701    
 Time spent in Other_tasks :    19.0602417    
 Time spent in Total :    631.870850    
Time in seconds: 646



LOG file for integration channel /P0_ddx_emep/all_G1_57, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37302
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          57
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 179949
  with seed                   48
 Ranmar initialization seeds       30233        8887
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.418572D+04 0.418572D+04  1.00
 muF1, muF1_reference: 0.418572D+04 0.418572D+04  1.00
 muF2, muF2_reference: 0.418572D+04 0.418572D+04  1.00
 QES,  QES_reference:  0.418572D+04 0.418572D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5063923055283727E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3256797868994972E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6884221967307191E-006           OLP:   -6.6884221967307182E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6294199246616839E-005           OLP:   -1.6294199246616747E-005
  FINITE:
           OLP:   -3.9002492644147312E-004
           BORN:    2.5058485374596156E-003
  MOMENTA (Exyzm): 
           1   2717.7088785820752        0.0000000000000000        0.0000000000000000        2717.7088785820752        0.0000000000000000     
           2   2717.7088785820752       -0.0000000000000000       -0.0000000000000000       -2717.7088785820752        0.0000000000000000     
           3   2717.7088785820752       -1781.0250794892606       -1032.6947541787999        1774.1005494744943        0.0000000000000000     
           4   2717.7088785820752        1781.0250794892606        1032.6947541787999       -1774.1005494744943        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6884221967307191E-006           OLP:   -6.6884221967307182E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6294199246616839E-005           OLP:   -1.6294199246616747E-005
ABS integral  = 0.3936E-06  +/-  0.9015E-09  (   0.229 %)
Integral      = 0.2603E-06  +/-  0.9841E-09  (   0.378 %)
Virtual       = 0.2146E-09  +/-  0.4807E-09  ( 224.032 %)
Virtual ratio = -.2870E+00  +/-  0.3863E-03  (   0.135 %)
ABS virtual   = 0.1841E-06  +/-  0.4129E-09  (   0.224 %)
Born          = 0.9514E-06  +/-  0.1602E-08  (   0.168 %)
V  2          = 0.2146E-09  +/-  0.4807E-09  ( 224.032 %)
B  2          = 0.9514E-06  +/-  0.1602E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3936E-06  +/-  0.9015E-09  (   0.229 %)
accumulated results Integral      = 0.2603E-06  +/-  0.9841E-09  (   0.378 %)
accumulated results Virtual       = 0.2146E-09  +/-  0.4807E-09  ( 224.032 %)
accumulated results Virtual ratio = -.2870E+00  +/-  0.3863E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1841E-06  +/-  0.4129E-09  (   0.224 %)
accumulated results Born          = 0.9514E-06  +/-  0.1602E-08  (   0.168 %)
accumulated results V  2          = 0.2146E-09  +/-  0.4807E-09  ( 224.032 %)
accumulated results B  2          = 0.9514E-06  +/-  0.1602E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95072    11311  0.6783E-07  0.4274E-07  0.7003E+00
channel    2 :     1 T    96113    11643  0.6666E-07  0.4301E-07  0.8811E+00
channel    3 :     2 T   184748    21117  0.1304E-06  0.8600E-07  0.7306E+00
channel    4 :     2 T   183943    21463  0.1286E-06  0.8858E-07  0.9073E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9357415995724972E-007  +/-   9.0154773601852330E-010
 Final result:   2.6032518103812177E-007  +/-   9.8408115155080807E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348727
   Stability unknown:                                          0
   Stable PS point:                                       348727
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348727
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348727
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17065334    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.41208267    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.74664211    
 Time spent in Integrated_CT :    8.42474365    
 Time spent in Virtuals :    488.671600    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.96108627    
 Time spent in N1body_prefactor :   0.590016603    
 Time spent in Adding_alphas_pdf :    9.13688564    
 Time spent in Reweight_scale :    35.0337067    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.1210880    
 Time spent in Applying_cuts :    4.54405069    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.9352722    
 Time spent in Other_tasks :    19.2368774    
 Time spent in Total :    632.984680    
Time in seconds: 648



LOG file for integration channel /P0_ddx_emep/all_G1_58, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37292
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          58
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 183106
  with seed                   48
 Ranmar initialization seeds       30233       12044
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.414350D+04 0.414350D+04  1.00
 muF1, muF1_reference: 0.414350D+04 0.414350D+04  1.00
 muF2, muF2_reference: 0.414350D+04 0.414350D+04  1.00
 QES,  QES_reference:  0.414350D+04 0.414350D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5135881880133551E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3400951256356706E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6122110482891934E-006           OLP:   -6.6122110482891917E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5976642218500477E-005           OLP:   -1.5976642218500911E-005
  FINITE:
           OLP:   -3.9042622762204906E-004
           BORN:    2.4772956756271701E-003
  MOMENTA (Exyzm): 
           1   2660.3598280925762        0.0000000000000000        0.0000000000000000        2660.3598280925762        0.0000000000000000     
           2   2660.3598280925762       -0.0000000000000000       -0.0000000000000000       -2660.3598280925762        0.0000000000000000     
           3   2660.3598280925762       -1034.7638540867831       -1754.7710447865657        1711.0104504598717        0.0000000000000000     
           4   2660.3598280925762        1034.7638540867831        1754.7710447865657       -1711.0104504598717        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6122110482891934E-006           OLP:   -6.6122110482891917E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5976642218500477E-005           OLP:   -1.5976642218500911E-005
ABS integral  = 0.3942E-06  +/-  0.8629E-09  (   0.219 %)
Integral      = 0.2616E-06  +/-  0.9487E-09  (   0.363 %)
Virtual       = 0.4813E-09  +/-  0.4908E-09  ( 101.966 %)
Virtual ratio = -.2873E+00  +/-  0.3859E-03  (   0.134 %)
ABS virtual   = 0.1845E-06  +/-  0.4244E-09  (   0.230 %)
Born          = 0.9528E-06  +/-  0.1621E-08  (   0.170 %)
V  2          = 0.4813E-09  +/-  0.4908E-09  ( 101.966 %)
B  2          = 0.9528E-06  +/-  0.1621E-08  (   0.170 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3942E-06  +/-  0.8629E-09  (   0.219 %)
accumulated results Integral      = 0.2616E-06  +/-  0.9487E-09  (   0.363 %)
accumulated results Virtual       = 0.4813E-09  +/-  0.4908E-09  ( 101.966 %)
accumulated results Virtual ratio = -.2873E+00  +/-  0.3859E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1845E-06  +/-  0.4244E-09  (   0.230 %)
accumulated results Born          = 0.9528E-06  +/-  0.1621E-08  (   0.170 %)
accumulated results V  2          = 0.4813E-09  +/-  0.4908E-09  ( 101.966 %)
accumulated results B  2          = 0.9528E-06  +/-  0.1621E-08  (   0.170 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95527    11311  0.6700E-07  0.4246E-07  0.8227E+00
channel    2 :     1 T    95968    11643  0.6744E-07  0.4364E-07  0.8903E+00
channel    3 :     2 T   184942    21117  0.1303E-06  0.8632E-07  0.7519E+00
channel    4 :     2 T   183436    21463  0.1295E-06  0.8917E-07  0.9353E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9423439106102830E-007  +/-   8.6290240716370922E-010
 Final result:   2.6159010260300646E-007  +/-   9.4867160659145249E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348694
   Stability unknown:                                          0
   Stable PS point:                                       348694
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348694
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348694
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.10483706    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.36703873    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.81544399    
 Time spent in Integrated_CT :    8.13992310    
 Time spent in Virtuals :    456.453491    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.94523859    
 Time spent in N1body_prefactor :   0.616893172    
 Time spent in Adding_alphas_pdf :    9.20666885    
 Time spent in Reweight_scale :    35.7310257    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.3328924    
 Time spent in Applying_cuts :    4.54614067    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    33.8250351    
 Time spent in Other_tasks :    18.8416748    
 Time spent in Total :    597.926270    
Time in seconds: 613



LOG file for integration channel /P0_ddx_emep/all_G1_59, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37299
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          59
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 186263
  with seed                   48
 Ranmar initialization seeds       30233       15201
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.450391D+04 0.450391D+04  1.00
 muF1, muF1_reference: 0.450391D+04 0.450391D+04  1.00
 muF2, muF2_reference: 0.450391D+04 0.450391D+04  1.00
 QES,  QES_reference:  0.450391D+04 0.450391D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4547881675013070E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3348269024595028E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6700919504191252E-006           OLP:   -6.6700919504191218E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6217289922126831E-005           OLP:   -1.6217289922126953E-005
  FINITE:
           OLP:   -3.8763812645477996E-004
           BORN:    2.4989810252780977E-003
  MOMENTA (Exyzm): 
           1   2681.1504267236560        0.0000000000000000        0.0000000000000000        2681.1504267236560        0.0000000000000000     
           2   2681.1504267236560       -0.0000000000000000       -0.0000000000000000       -2681.1504267236560        0.0000000000000000     
           3   2681.1504267236560       -1362.8555834110666       -1513.1389776012581        1744.0191237338950        0.0000000000000000     
           4   2681.1504267236560        1362.8555834110666        1513.1389776012581       -1744.0191237338950        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6700919504191252E-006           OLP:   -6.6700919504191218E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6217289922126831E-005           OLP:   -1.6217289922126953E-005
ABS integral  = 0.3949E-06  +/-  0.8547E-09  (   0.216 %)
Integral      = 0.2617E-06  +/-  0.9416E-09  (   0.360 %)
Virtual       = 0.1123E-08  +/-  0.4856E-09  (  43.235 %)
Virtual ratio = -.2869E+00  +/-  0.3862E-03  (   0.135 %)
ABS virtual   = 0.1849E-06  +/-  0.4181E-09  (   0.226 %)
Born          = 0.9523E-06  +/-  0.1602E-08  (   0.168 %)
V  2          = 0.1123E-08  +/-  0.4856E-09  (  43.235 %)
B  2          = 0.9523E-06  +/-  0.1602E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3949E-06  +/-  0.8547E-09  (   0.216 %)
accumulated results Integral      = 0.2617E-06  +/-  0.9416E-09  (   0.360 %)
accumulated results Virtual       = 0.1123E-08  +/-  0.4856E-09  (  43.235 %)
accumulated results Virtual ratio = -.2869E+00  +/-  0.3862E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1849E-06  +/-  0.4181E-09  (   0.226 %)
accumulated results Born          = 0.9523E-06  +/-  0.1602E-08  (   0.168 %)
accumulated results V  2          = 0.1123E-08  +/-  0.4856E-09  (  43.235 %)
accumulated results B  2          = 0.9523E-06  +/-  0.1602E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95338    11311  0.6758E-07  0.4309E-07  0.8802E+00
channel    2 :     1 T    96454    11643  0.6768E-07  0.4409E-07  0.8904E+00
channel    3 :     2 T   184575    21117  0.1302E-06  0.8575E-07  0.7421E+00
channel    4 :     2 T   183507    21463  0.1294E-06  0.8875E-07  0.9088E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9488028225942260E-007  +/-   8.5468573689391686E-010
 Final result:   2.6167830195447836E-007  +/-   9.4164371373167587E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    349072
   Stability unknown:                                          0
   Stable PS point:                                       349072
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 349072
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       349072
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.10707152    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.40144253    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.82465982    
 Time spent in Integrated_CT :    8.21618652    
 Time spent in Virtuals :    458.411377    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.99522686    
 Time spent in N1body_prefactor :   0.606315136    
 Time spent in Adding_alphas_pdf :    9.16310501    
 Time spent in Reweight_scale :    35.4277573    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.5513306    
 Time spent in Applying_cuts :    4.54577398    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    33.8874321    
 Time spent in Other_tasks :    18.7625732    
 Time spent in Total :    599.900269    
Time in seconds: 615



LOG file for integration channel /P0_ddx_emep/all_G1_60, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37300
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          60
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 189420
  with seed                   48
 Ranmar initialization seeds       30233       18358
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435073D+04 0.435073D+04  1.00
 muF1, muF1_reference: 0.435073D+04 0.435073D+04  1.00
 muF2, muF2_reference: 0.435073D+04 0.435073D+04  1.00
 QES,  QES_reference:  0.435073D+04 0.435073D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4790720204587297E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3316010323402042E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6077408092397082E-006           OLP:   -6.6077408092397099E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5958281229282533E-005           OLP:   -1.5958281229281730E-005
  FINITE:
           OLP:   -3.9456065497438990E-004
           BORN:    2.4756208797403730E-003
  MOMENTA (Exyzm): 
           1   2693.9763003787016        0.0000000000000000        0.0000000000000000        2693.9763003787016        0.0000000000000000     
           2   2693.9763003787016       -0.0000000000000000       -0.0000000000000000       -2693.9763003787016        0.0000000000000000     
           3   2693.9763003787016       -1558.1435478315943       -1353.8489390067930        1731.1239244210881        0.0000000000000000     
           4   2693.9763003787016        1558.1435478315943        1353.8489390067930       -1731.1239244210881        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6077408092397082E-006           OLP:   -6.6077408092397099E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5958281229282529E-005           OLP:   -1.5958281229281730E-005
ABS integral  = 0.3919E-06  +/-  0.8419E-09  (   0.215 %)
Integral      = 0.2596E-06  +/-  0.9288E-09  (   0.358 %)
Virtual       = 0.8411E-09  +/-  0.4838E-09  (  57.516 %)
Virtual ratio = -.2872E+00  +/-  0.3870E-03  (   0.135 %)
ABS virtual   = 0.1840E-06  +/-  0.4166E-09  (   0.226 %)
Born          = 0.9485E-06  +/-  0.1590E-08  (   0.168 %)
V  2          = 0.8411E-09  +/-  0.4838E-09  (  57.516 %)
B  2          = 0.9485E-06  +/-  0.1590E-08  (   0.168 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3919E-06  +/-  0.8419E-09  (   0.215 %)
accumulated results Integral      = 0.2596E-06  +/-  0.9288E-09  (   0.358 %)
accumulated results Virtual       = 0.8411E-09  +/-  0.4838E-09  (  57.516 %)
accumulated results Virtual ratio = -.2872E+00  +/-  0.3870E-03  (   0.135 %)
accumulated results ABS virtual   = 0.1840E-06  +/-  0.4166E-09  (   0.226 %)
accumulated results Born          = 0.9485E-06  +/-  0.1590E-08  (   0.168 %)
accumulated results V  2          = 0.8411E-09  +/-  0.4838E-09  (  57.516 %)
accumulated results B  2          = 0.9485E-06  +/-  0.1590E-08  (   0.168 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                  1                           2           3                        4
channel    1 :     1 T    95594    11311  0.6727E-07  0.4316E-07  0.8666E+00
channel    2 :     1 T    96108    11643  0.6746E-07  0.4396E-07  0.8972E+00
channel    3 :     2 T   184754    21117  0.1296E-06  0.8544E-07  0.7509E+00
channel    4 :     2 T   183417    21463  0.1275E-06  0.8704E-07  0.9276E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9185980561212074E-007  +/-   8.4191124741087363E-010
 Final result:   2.5959863966057528E-007  +/-   9.2882269907127587E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348807
   Stability unknown:                                          0
   Stable PS point:                                       348807
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348807
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348807
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.10094833    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.36399126    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.80907154    
 Time spent in Integrated_CT :    8.11614990    
 Time spent in Virtuals :    456.442657    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.06265640    
 Time spent in N1body_prefactor :   0.629991412    
 Time spent in Adding_alphas_pdf :    9.20777321    
 Time spent in Reweight_scale :    35.3637695    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.5663385    
 Time spent in Applying_cuts :    4.60564327    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    33.9838715    
 Time spent in Other_tasks :    19.0634766    
 Time spent in Total :    598.316406    
Time in seconds: 613



LOG file for integration channel /P0_ddx_emep/all_G1_61, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37293
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          61
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 192577
  with seed                   48
 Ranmar initialization seeds       30233       21515
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441271D+04 0.441271D+04  1.00
 muF1, muF1_reference: 0.441271D+04 0.441271D+04  1.00
 muF2, muF2_reference: 0.441271D+04 0.441271D+04  1.00
 QES,  QES_reference:  0.441271D+04 0.441271D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4691252492860502E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3281869156091833E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6304450951040341E-006           OLP:   -6.6304450951040426E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6052261956314081E-005           OLP:   -1.6052261956313986E-005
  FINITE:
           OLP:   -3.9411228521108680E-004
           BORN:    2.4841271462190343E-003
  MOMENTA (Exyzm): 
           1   2707.6300465751128        0.0000000000000000        0.0000000000000000        2707.6300465751128        0.0000000000000000     
           2   2707.6300465751128       -0.0000000000000000       -0.0000000000000000       -2707.6300465751128        0.0000000000000000     
           3   2707.6300465751128       -1915.0319207463660       -780.69107656276333        1747.6940964064920        0.0000000000000000     
           4   2707.6300465751128        1915.0319207463660        780.69107656276333       -1747.6940964064920        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6304450951040341E-006           OLP:   -6.6304450951040426E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6052261956314077E-005           OLP:   -1.6052261956313986E-005
ABS integral  = 0.3932E-06  +/-  0.8653E-09  (   0.220 %)
Integral      = 0.2603E-06  +/-  0.9508E-09  (   0.365 %)
Virtual       = -.5373E-10  +/-  0.4825E-09  ( 898.044 %)
Virtual ratio = -.2875E+00  +/-  0.3853E-03  (   0.134 %)
ABS virtual   = 0.1844E-06  +/-  0.4149E-09  (   0.225 %)
Born          = 0.9543E-06  +/-  0.1612E-08  (   0.169 %)
V  2          = -.5373E-10  +/-  0.4825E-09  ( 898.044 %)
B  2          = 0.9543E-06  +/-  0.1612E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3932E-06  +/-  0.8653E-09  (   0.220 %)
accumulated results Integral      = 0.2603E-06  +/-  0.9508E-09  (   0.365 %)
accumulated results Virtual       = -.5373E-10  +/-  0.4825E-09  ( 898.044 %)
accumulated results Virtual ratio = -.2875E+00  +/-  0.3853E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1844E-06  +/-  0.4149E-09  (   0.225 %)
accumulated results Born          = 0.9543E-06  +/-  0.1612E-08  (   0.169 %)
accumulated results V  2          = -.5373E-10  +/-  0.4825E-09  ( 898.044 %)
accumulated results B  2          = 0.9543E-06  +/-  0.1612E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95162    11311  0.6711E-07  0.4276E-07  0.7632E+00
channel    2 :     1 T    96178    11643  0.6701E-07  0.4361E-07  0.9037E+00
channel    3 :     2 T   184718    21117  0.1302E-06  0.8594E-07  0.7505E+00
channel    4 :     2 T   183814    21463  0.1289E-06  0.8801E-07  0.9196E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9321531945732514E-007  +/-   8.6533729733746805E-010
 Final result:   2.6032444222803362E-007  +/-   9.5075361598469392E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    349089
   Stability unknown:                                          0
   Stable PS point:                                       349089
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 349089
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       349089
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.08166242    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.40511036    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.90031242    
 Time spent in Integrated_CT :    8.03997803    
 Time spent in Virtuals :    455.505524    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.98291254    
 Time spent in N1body_prefactor :   0.606594861    
 Time spent in Adding_alphas_pdf :    9.27405071    
 Time spent in Reweight_scale :    35.2408752    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.2193012    
 Time spent in Applying_cuts :    4.59030294    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    33.8180542    
 Time spent in Other_tasks :    18.8703613    
 Time spent in Total :    596.535034    
Time in seconds: 611



LOG file for integration channel /P0_ddx_emep/all_G1_62, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37291
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          62
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 195734
  with seed                   48
 Ranmar initialization seeds       30233       24672
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.338650D+04 0.338650D+04  1.00
 muF1, muF1_reference: 0.338650D+04 0.338650D+04  1.00
 muF2, muF2_reference: 0.338650D+04 0.338650D+04  1.00
 QES,  QES_reference:  0.338650D+04 0.338650D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6596923291969862E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3245843872444205E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5923664018048814E-006           OLP:   -6.5923664018048848E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5894997637017587E-005           OLP:   -1.5894997637017743E-005
  FINITE:
           OLP:   -3.9898648535103632E-004
           BORN:    2.4698607863653313E-003
  MOMENTA (Exyzm): 
           1   2722.1264315103799        0.0000000000000000        0.0000000000000000        2722.1264315103799        0.0000000000000000     
           2   2722.1264315103799       -0.0000000000000000       -0.0000000000000000       -2722.1264315103799        0.0000000000000000     
           3   2722.1264315103799       -1757.9754233783492       -1130.5941871659134        1743.9184338356526        0.0000000000000000     
           4   2722.1264315103799        1757.9754233783492        1130.5941871659134       -1743.9184338356526        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.5923664018048814E-006           OLP:   -6.5923664018048848E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5894997637017587E-005           OLP:   -1.5894997637017743E-005
ABS integral  = 0.3928E-06  +/-  0.8464E-09  (   0.215 %)
Integral      = 0.2597E-06  +/-  0.9335E-09  (   0.359 %)
Virtual       = 0.1121E-09  +/-  0.4859E-09  ( 433.553 %)
Virtual ratio = -.2876E+00  +/-  0.3863E-03  (   0.134 %)
ABS virtual   = 0.1846E-06  +/-  0.4185E-09  (   0.227 %)
Born          = 0.9514E-06  +/-  0.1606E-08  (   0.169 %)
V  2          = 0.1121E-09  +/-  0.4859E-09  ( 433.553 %)
B  2          = 0.9514E-06  +/-  0.1606E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3928E-06  +/-  0.8464E-09  (   0.215 %)
accumulated results Integral      = 0.2597E-06  +/-  0.9335E-09  (   0.359 %)
accumulated results Virtual       = 0.1121E-09  +/-  0.4859E-09  ( 433.553 %)
accumulated results Virtual ratio = -.2876E+00  +/-  0.3863E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1846E-06  +/-  0.4185E-09  (   0.227 %)
accumulated results Born          = 0.9514E-06  +/-  0.1606E-08  (   0.169 %)
accumulated results V  2          = 0.1121E-09  +/-  0.4859E-09  ( 433.553 %)
accumulated results B  2          = 0.9514E-06  +/-  0.1606E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95361    11311  0.6681E-07  0.4237E-07  0.8711E+00
channel    2 :     1 T    95816    11643  0.6733E-07  0.4375E-07  0.9031E+00
channel    3 :     2 T   185425    21117  0.1303E-06  0.8581E-07  0.7608E+00
channel    4 :     2 T   183271    21463  0.1283E-06  0.8774E-07  0.9102E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9279150676098040E-007  +/-   8.4635875519738856E-010
 Final result:   2.5967354141998877E-007  +/-   9.3351834144744773E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348508
   Stability unknown:                                          0
   Stable PS point:                                       348508
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348508
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348508
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.11151111    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.53317022    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.84793520    
 Time spent in Integrated_CT :    8.01071167    
 Time spent in Virtuals :    454.706573    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.99237537    
 Time spent in N1body_prefactor :   0.616891980    
 Time spent in Adding_alphas_pdf :    9.29423237    
 Time spent in Reweight_scale :    35.8819733    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.5173283    
 Time spent in Applying_cuts :    4.69740295    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    33.9981384    
 Time spent in Other_tasks :    19.0474854    
 Time spent in Total :    597.255737    
Time in seconds: 612



LOG file for integration channel /P0_ddx_emep/all_G1_63, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37308
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      647974
 Maximum number of iterations is:           1
 Desired accuracy is:   4.3813081326459441E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          63
 Weight multiplier:   1.5873015873015872E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      647974           1
 imode is           -1
channel    1 :     1 F        0    11311  0.4224E-05  0.0000E+00  0.8925E+00
channel    2 :     1 F        0    11643  0.4259E-05  0.0000E+00  0.8744E+00
channel    3 :     2 F        0    21117  0.8183E-05  0.0000E+00  0.7417E+00
channel    4 :     2 F        0    21463  0.8109E-05  0.0000E+00  0.8969E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       647974  -->       559872
Using random seed offsets:     0 ,      2 , 198891
  with seed                   48
 Ranmar initialization seeds       30233       27829
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434957D+04 0.434957D+04  1.00
 muF1, muF1_reference: 0.434957D+04 0.434957D+04  1.00
 muF2, muF2_reference: 0.434957D+04 0.434957D+04  1.00
 QES,  QES_reference:  0.434957D+04 0.434957D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4792595598020581E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3516887207903364E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6129294123846929E-006           OLP:   -6.6129294123847006E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5979469934592448E-005           OLP:   -1.5979469934593372E-005
  FINITE:
           OLP:   -3.8529005882543090E-004
           BORN:    2.4775648140824172E-003
  MOMENTA (Exyzm): 
           1   2615.2774351402704        0.0000000000000000        0.0000000000000000        2615.2774351402704        0.0000000000000000     
           2   2615.2774351402704       -0.0000000000000000       -0.0000000000000000       -2615.2774351402704        0.0000000000000000     
           3   2615.2774351402704       -1490.4713688068341       -1337.2675355068855        1682.2267088595083        0.0000000000000000     
           4   2615.2774351402704        1490.4713688068341        1337.2675355068855       -1682.2267088595083        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6129294123846929E-006           OLP:   -6.6129294123847006E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5979469934592448E-005           OLP:   -1.5979469934593372E-005
 Error #15 in genps_fks.f  -1.0617077350616455E-006           3
ABS integral  = 0.3928E-06  +/-  0.8561E-09  (   0.218 %)
Integral      = 0.2606E-06  +/-  0.9420E-09  (   0.362 %)
Virtual       = 0.3719E-10  +/-  0.4842E-09  ( ******* %)
Virtual ratio = -.2875E+00  +/-  0.3854E-03  (   0.134 %)
ABS virtual   = 0.1838E-06  +/-  0.4173E-09  (   0.227 %)
Born          = 0.9518E-06  +/-  0.1607E-08  (   0.169 %)
V  2          = 0.3719E-10  +/-  0.4842E-09  ( ******* %)
B  2          = 0.9518E-06  +/-  0.1607E-08  (   0.169 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.3928E-06  +/-  0.8561E-09  (   0.218 %)
accumulated results Integral      = 0.2606E-06  +/-  0.9420E-09  (   0.362 %)
accumulated results Virtual       = 0.3719E-10  +/-  0.4842E-09  ( ******* %)
accumulated results Virtual ratio = -.2875E+00  +/-  0.3854E-03  (   0.134 %)
accumulated results ABS virtual   = 0.1838E-06  +/-  0.4173E-09  (   0.227 %)
accumulated results Born          = 0.9518E-06  +/-  0.1607E-08  (   0.169 %)
accumulated results V  2          = 0.3719E-10  +/-  0.4842E-09  ( ******* %)
accumulated results B  2          = 0.9518E-06  +/-  0.1607E-08  (   0.169 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                1                                                  2
  2:  0                                   1                          2           3                        4
channel    1 :     1 T    95168    11311  0.6682E-07  0.4306E-07  0.8935E+00
channel    2 :     1 T    96176    11643  0.6772E-07  0.4426E-07  0.8840E+00
channel    3 :     2 T   184499    21117  0.1299E-06  0.8550E-07  0.7315E+00
channel    4 :     2 T   184032    21463  0.1284E-06  0.8773E-07  0.9099E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   3.9284368165817343E-007  +/-   8.5613408576520950E-010
 Final result:   2.6055298575589058E-007  +/-   9.4199520628155950E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    348881
   Stability unknown:                                          0
   Stable PS point:                                       348881
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 348881
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       348881
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.13862944    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.19211006    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.65561867    
 Time spent in Integrated_CT :    8.25964355    
 Time spent in Virtuals :    459.112122    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.82602024    
 Time spent in N1body_prefactor :   0.577801585    
 Time spent in Adding_alphas_pdf :    8.85476494    
 Time spent in Reweight_scale :    33.9201431    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.6638489    
 Time spent in Applying_cuts :    4.50487328    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.0978928    
 Time spent in Other_tasks :    19.2605591    
 Time spent in Total :    600.064026    
Time in seconds: 615



LOG file for integration channel /P0_uxu_emep/all_G1_1, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37526
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           1
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,   3157
  with seed                   48
 Ranmar initialization seeds       30233       12582
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436630D+04 0.436630D+04  1.00
 muF1, muF1_reference: 0.436630D+04 0.436630D+04  1.00
 muF2, muF2_reference: 0.436630D+04 0.436630D+04  1.00
 QES,  QES_reference:  0.436630D+04 0.436630D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4765583819814574E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4765583819814574E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7521306665658528E-006           OLP:   -3.7521306665658503E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9221526150272608E-006           OLP:   -7.9221526150272472E-006
  FINITE:
           OLP:   -7.9197008457795534E-005
           BORN:    1.0813486426609314E-003
  MOMENTA (Exyzm): 
           1   2183.1485171576824        0.0000000000000000        0.0000000000000000        2183.1485171576824        0.0000000000000000     
           2   2183.1485171576824       -0.0000000000000000       -0.0000000000000000       -2183.1485171576824        0.0000000000000000     
           3   2183.1485171576824       -2048.5789137871939       -287.64440354363546        697.65505736308774        0.0000000000000000     
           4   2183.1485171576824        2048.5789137871939        287.64440354363546       -697.65505736308774        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7521306665658528E-006           OLP:   -3.7521306665658503E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9221526150272608E-006           OLP:   -7.9221526150272472E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8941E-06  +/-  0.1790E-08  (   0.200 %)
Integral      = 0.5128E-06  +/-  0.2041E-08  (   0.398 %)
Virtual       = 0.7664E-09  +/-  0.1062E-08  ( 138.615 %)
Virtual ratio = -.1948E+00  +/-  0.4171E-03  (   0.214 %)
ABS virtual   = 0.4826E-06  +/-  0.8441E-09  (   0.175 %)
Born          = 0.1872E-05  +/-  0.2681E-08  (   0.143 %)
V  2          = 0.7664E-09  +/-  0.1062E-08  ( 138.615 %)
B  2          = 0.1872E-05  +/-  0.2681E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8941E-06  +/-  0.1790E-08  (   0.200 %)
accumulated results Integral      = 0.5128E-06  +/-  0.2041E-08  (   0.398 %)
accumulated results Virtual       = 0.7664E-09  +/-  0.1062E-08  ( 138.615 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4171E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4826E-06  +/-  0.8441E-09  (   0.175 %)
accumulated results Born          = 0.1872E-05  +/-  0.2681E-08  (   0.143 %)
accumulated results V  2          = 0.7664E-09  +/-  0.1062E-08  ( 138.615 %)
accumulated results B  2          = 0.1872E-05  +/-  0.2681E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                3                     4
channel    1 :     1 T   205646    23880  0.3252E-06  0.1841E-06  0.1000E+01
channel    2 :     1 T   207204    24697  0.3336E-06  0.1977E-06  0.9408E+00
channel    3 :     2 T    73804     8614  0.1171E-06  0.6288E-07  0.9720E+00
channel    4 :     2 T    73222     8343  0.1183E-06  0.6813E-07  0.9783E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9414471708363492E-007  +/-   1.7904341646566014E-009
 Final result:   5.1280073975607190E-007  +/-   2.0405791189387825E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398767
   Stability unknown:                                          0
   Stable PS point:                                       398767
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398767
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398767
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.15226650    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.07047415    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.74120998    
 Time spent in Integrated_CT :    8.29928589    
 Time spent in Virtuals :    507.124054    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.78813982    
 Time spent in N1body_prefactor :   0.583348751    
 Time spent in Adding_alphas_pdf :    9.25673866    
 Time spent in Reweight_scale :    34.7776794    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.0054550    
 Time spent in Applying_cuts :    4.79560900    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.6498947    
 Time spent in Other_tasks :    19.7750854    
 Time spent in Total :    650.019226    
Time in seconds: 652



LOG file for integration channel /P0_uxu_emep/all_G1_2, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37520
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           2
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,   6314
  with seed                   48
 Ranmar initialization seeds       30233       15739
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436120D+04 0.436120D+04  1.00
 muF1, muF1_reference: 0.436120D+04 0.436120D+04  1.00
 muF2, muF2_reference: 0.436120D+04 0.436120D+04  1.00
 QES,  QES_reference:  0.436120D+04 0.436120D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4773797407487047E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4773797407487047E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9269417381958535E-006           OLP:   -3.9269417381958493E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0784250644314844E-006           OLP:   -8.0784250644313692E-006
  FINITE:
           OLP:   -9.0021712885141893E-005
           BORN:    1.1317284753020521E-003
  MOMENTA (Exyzm): 
           1   2180.6019329512792        0.0000000000000000        0.0000000000000000        2180.6019329512792        0.0000000000000000     
           2   2180.6019329512792       -0.0000000000000000       -0.0000000000000000       -2180.6019329512792        0.0000000000000000     
           3   2180.6019329512792       -1267.7146818797082       -1655.2371064364238        638.83831821006197        0.0000000000000000     
           4   2180.6019329512792        1267.7146818797082        1655.2371064364238       -638.83831821006197        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9269417381958535E-006           OLP:   -3.9269417381958493E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.0784250644314844E-006           OLP:   -8.0784250644313692E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.8959E-06  +/-  0.1891E-08  (   0.211 %)
Integral      = 0.5136E-06  +/-  0.2130E-08  (   0.415 %)
Virtual       = -.9502E-09  +/-  0.1068E-08  ( 112.402 %)
Virtual ratio = -.1957E+00  +/-  0.4170E-03  (   0.213 %)
ABS virtual   = 0.4837E-06  +/-  0.8501E-09  (   0.176 %)
Born          = 0.1876E-05  +/-  0.2695E-08  (   0.144 %)
V  2          = -.9502E-09  +/-  0.1068E-08  ( 112.402 %)
B  2          = 0.1876E-05  +/-  0.2695E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8959E-06  +/-  0.1891E-08  (   0.211 %)
accumulated results Integral      = 0.5136E-06  +/-  0.2130E-08  (   0.415 %)
accumulated results Virtual       = -.9502E-09  +/-  0.1068E-08  ( 112.402 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4170E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8501E-09  (   0.176 %)
accumulated results Born          = 0.1876E-05  +/-  0.2695E-08  (   0.144 %)
accumulated results V  2          = -.9502E-09  +/-  0.1068E-08  ( 112.402 %)
accumulated results B  2          = 0.1876E-05  +/-  0.2695E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205872    23880  0.3263E-06  0.1855E-06  0.1000E+01
channel    2 :     1 T   207156    24697  0.3330E-06  0.1991E-06  0.8711E+00
channel    3 :     2 T    73639     8614  0.1185E-06  0.6132E-07  0.8852E+00
channel    4 :     2 T    73208     8343  0.1181E-06  0.6764E-07  0.9846E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9593017527392617E-007  +/-   1.8908154343065976E-009
 Final result:   5.1358451977256690E-007  +/-   2.1302026706109689E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398831
   Stability unknown:                                          0
   Stable PS point:                                       398831
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398831
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398831
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23114848    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.73277664    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.21331501    
 Time spent in Integrated_CT :    8.94171143    
 Time spent in Virtuals :    550.846741    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.47701263    
 Time spent in N1body_prefactor :   0.642008424    
 Time spent in Adding_alphas_pdf :    10.3944416    
 Time spent in Reweight_scale :    39.6040878    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9262705    
 Time spent in Applying_cuts :    4.96308756    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.2044754    
 Time spent in Other_tasks :    20.6080933    
 Time spent in Total :    706.785156    
Time in seconds: 715



LOG file for integration channel /P0_uxu_emep/all_G1_3, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37518
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           3
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,   9471
  with seed                   48
 Ranmar initialization seeds       30233       18896
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432304D+04 0.432304D+04  1.00
 muF1, muF1_reference: 0.432304D+04 0.432304D+04  1.00
 muF2, muF2_reference: 0.432304D+04 0.432304D+04  1.00
 QES,  QES_reference:  0.432304D+04 0.432304D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4835712825631867E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4835712825631867E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8763572699775918E-006           OLP:   -3.8763572699775977E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0336600870124704E-006           OLP:   -8.0336600870124992E-006
  FINITE:
           OLP:   -8.5903290634664820E-005
           BORN:    1.1171502393853359E-003
  MOMENTA (Exyzm): 
           1   2161.5178215940791        0.0000000000000000        0.0000000000000000        2161.5178215940791        0.0000000000000000     
           2   2161.5178215940791       -0.0000000000000000       -0.0000000000000000       -2161.5178215940791        0.0000000000000000     
           3   2161.5178215940791       -1502.1488040731028       -1412.0035066125849        649.58014194118130        0.0000000000000000     
           4   2161.5178215940791        1502.1488040731028        1412.0035066125849       -649.58014194118130        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8763572699775918E-006           OLP:   -3.8763572699775977E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.0336600870124721E-006           OLP:   -8.0336600870124992E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.2218952178955078E-006           4
ABS integral  = 0.8939E-06  +/-  0.2066E-08  (   0.231 %)
Integral      = 0.5101E-06  +/-  0.2287E-08  (   0.448 %)
Virtual       = 0.6462E-10  +/-  0.1065E-08  ( ******* %)
Virtual ratio = -.1951E+00  +/-  0.4168E-03  (   0.214 %)
ABS virtual   = 0.4833E-06  +/-  0.8465E-09  (   0.175 %)
Born          = 0.1873E-05  +/-  0.2682E-08  (   0.143 %)
V  2          = 0.6462E-10  +/-  0.1065E-08  ( ******* %)
B  2          = 0.1873E-05  +/-  0.2682E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8939E-06  +/-  0.2066E-08  (   0.231 %)
accumulated results Integral      = 0.5101E-06  +/-  0.2287E-08  (   0.448 %)
accumulated results Virtual       = 0.6462E-10  +/-  0.1065E-08  ( ******* %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4168E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8465E-09  (   0.175 %)
accumulated results Born          = 0.1873E-05  +/-  0.2682E-08  (   0.143 %)
accumulated results V  2          = 0.6462E-10  +/-  0.1065E-08  ( ******* %)
accumulated results B  2          = 0.1873E-05  +/-  0.2682E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206122    23880  0.3252E-06  0.1817E-06  0.7718E+00
channel    2 :     1 T   206986    24697  0.3328E-06  0.2000E-06  0.9702E+00
channel    3 :     2 T    73782     8614  0.1183E-06  0.6240E-07  0.9280E+00
channel    4 :     2 T    72984     8343  0.1176E-06  0.6601E-07  0.8800E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9389497206833333E-007  +/-   2.0656134991297685E-009
 Final result:   5.1012920114393847E-007  +/-   2.2867337580775440E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399183
   Stability unknown:                                          0
   Stable PS point:                                       399183
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399183
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399183
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22640717    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.72373152    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.32693720    
 Time spent in Integrated_CT :    8.83557129    
 Time spent in Virtuals :    547.272461    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.45915699    
 Time spent in N1body_prefactor :   0.660890996    
 Time spent in Adding_alphas_pdf :    10.4991026    
 Time spent in Reweight_scale :    39.6035156    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5344238    
 Time spent in Applying_cuts :    4.99726868    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0230331    
 Time spent in Other_tasks :    20.6272583    
 Time spent in Total :    702.789734    
Time in seconds: 711



LOG file for integration channel /P0_uxu_emep/all_G1_4, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37531
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           4
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  12628
  with seed                   48
 Ranmar initialization seeds       30233       22053
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434374D+04 0.434374D+04  1.00
 muF1, muF1_reference: 0.434374D+04 0.434374D+04  1.00
 muF2, muF2_reference: 0.434374D+04 0.434374D+04  1.00
 QES,  QES_reference:  0.434374D+04 0.434374D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4802043925149303E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4802043925149303E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5962323337784722E-006           OLP:   -3.5962323337784731E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7794714278999501E-006           OLP:   -7.7794714278997603E-006
  FINITE:
           OLP:   -6.9097689329702835E-005
           BORN:    1.0364193836522014E-003
  MOMENTA (Exyzm): 
           1   2171.8709647815244        0.0000000000000000        0.0000000000000000        2171.8709647815244        0.0000000000000000     
           2   2171.8709647815244       -0.0000000000000000       -0.0000000000000000       -2171.8709647815244        0.0000000000000000     
           3   2171.8709647815244       -1418.4691691417891       -1464.5757101685024        748.32258621510300        0.0000000000000000     
           4   2171.8709647815244        1418.4691691417891        1464.5757101685024       -748.32258621510300        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5962323337784722E-006           OLP:   -3.5962323337784731E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7794714278999501E-006           OLP:   -7.7794714278997603E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8971E-06  +/-  0.1987E-08  (   0.222 %)
Integral      = 0.5145E-06  +/-  0.2217E-08  (   0.431 %)
Virtual       = 0.1232E-08  +/-  0.1064E-08  (  86.356 %)
Virtual ratio = -.1950E+00  +/-  0.4168E-03  (   0.214 %)
ABS virtual   = 0.4835E-06  +/-  0.8456E-09  (   0.175 %)
Born          = 0.1875E-05  +/-  0.2682E-08  (   0.143 %)
V  2          = 0.1232E-08  +/-  0.1064E-08  (  86.356 %)
B  2          = 0.1875E-05  +/-  0.2682E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8971E-06  +/-  0.1987E-08  (   0.222 %)
accumulated results Integral      = 0.5145E-06  +/-  0.2217E-08  (   0.431 %)
accumulated results Virtual       = 0.1232E-08  +/-  0.1064E-08  (  86.356 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4168E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8456E-09  (   0.175 %)
accumulated results Born          = 0.1875E-05  +/-  0.2682E-08  (   0.143 %)
accumulated results V  2          = 0.1232E-08  +/-  0.1064E-08  (  86.356 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2682E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206042    23880  0.3290E-06  0.1868E-06  0.9827E+00
channel    2 :     1 T   206413    24697  0.3306E-06  0.1968E-06  0.8223E+00
channel    3 :     2 T    74025     8614  0.1184E-06  0.6186E-07  0.8432E+00
channel    4 :     2 T    73393     8343  0.1191E-06  0.6908E-07  0.9837E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9708301582654932E-007  +/-   1.9874270942366724E-009
 Final result:   5.1449917951313160E-007  +/-   2.2168579817091080E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399408
   Stability unknown:                                          0
   Stable PS point:                                       399408
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399408
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399408
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25524807    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.68193293    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.18536091    
 Time spent in Integrated_CT :    9.10400391    
 Time spent in Virtuals :    573.489807    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.36243439    
 Time spent in N1body_prefactor :   0.607514262    
 Time spent in Adding_alphas_pdf :    10.2030487    
 Time spent in Reweight_scale :    38.4261093    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2103100    
 Time spent in Applying_cuts :    5.00842094    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.3743744    
 Time spent in Other_tasks :    20.5736084    
 Time spent in Total :    729.482239    
Time in seconds: 736



LOG file for integration channel /P0_uxu_emep/all_G1_5, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37532
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           5
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  15785
  with seed                   48
 Ranmar initialization seeds       30233       25210
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440369D+04 0.440369D+04  1.00
 muF1, muF1_reference: 0.440369D+04 0.440369D+04  1.00
 muF2, muF2_reference: 0.440369D+04 0.440369D+04  1.00
 QES,  QES_reference:  0.440369D+04 0.440369D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4705627337714298E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4705627337714298E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3520937369414587E-006           OLP:   -3.3520937369414532E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5517930330649046E-006           OLP:   -7.5517930330649216E-006
  FINITE:
           OLP:   -5.5638530593152556E-005
           BORN:    9.6605964307512962E-004
  MOMENTA (Exyzm): 
           1   2201.8444649270596        0.0000000000000000        0.0000000000000000        2201.8444649270596        0.0000000000000000     
           2   2201.8444649270596       -0.0000000000000000       -0.0000000000000000       -2201.8444649270596        0.0000000000000000     
           3   2201.8444649270596       -2023.0924481845025       -174.96238091082168        851.23684077628002        0.0000000000000000     
           4   2201.8444649270596        2023.0924481845025        174.96238091082168       -851.23684077628002        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3520937369414587E-006           OLP:   -3.3520937369414532E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5517930330649038E-006           OLP:   -7.5517930330649216E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8953E-06  +/-  0.1832E-08  (   0.205 %)
Integral      = 0.5169E-06  +/-  0.2076E-08  (   0.402 %)
Virtual       = 0.1222E-08  +/-  0.1066E-08  (  87.246 %)
Virtual ratio = -.1948E+00  +/-  0.4171E-03  (   0.214 %)
ABS virtual   = 0.4832E-06  +/-  0.8484E-09  (   0.176 %)
Born          = 0.1873E-05  +/-  0.2687E-08  (   0.143 %)
V  2          = 0.1222E-08  +/-  0.1066E-08  (  87.246 %)
B  2          = 0.1873E-05  +/-  0.2687E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8953E-06  +/-  0.1832E-08  (   0.205 %)
accumulated results Integral      = 0.5169E-06  +/-  0.2076E-08  (   0.402 %)
accumulated results Virtual       = 0.1222E-08  +/-  0.1066E-08  (  87.246 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4171E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8484E-09  (   0.176 %)
accumulated results Born          = 0.1873E-05  +/-  0.2687E-08  (   0.143 %)
accumulated results V  2          = 0.1222E-08  +/-  0.1066E-08  (  87.246 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2687E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205792    23880  0.3264E-06  0.1846E-06  0.9776E+00
channel    2 :     1 T   207387    24697  0.3343E-06  0.2015E-06  0.9398E+00
channel    3 :     2 T    73423     8614  0.1174E-06  0.6326E-07  0.9196E+00
channel    4 :     2 T    73270     8343  0.1172E-06  0.6750E-07  0.9920E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9525749000010989E-007  +/-   1.8318236795656655E-009
 Final result:   5.1686101662907508E-007  +/-   2.0760481440157390E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398714
   Stability unknown:                                          0
   Stable PS point:                                       398714
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398714
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398714
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25464129    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.60121584    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.15808344    
 Time spent in Integrated_CT :    9.03466797    
 Time spent in Virtuals :    574.719604    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.40043354    
 Time spent in N1body_prefactor :   0.598081648    
 Time spent in Adding_alphas_pdf :    10.2633400    
 Time spent in Reweight_scale :    38.4857635    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2056446    
 Time spent in Applying_cuts :    4.98080444    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.3673096    
 Time spent in Other_tasks :    20.7328491    
 Time spent in Total :    730.802429    
Time in seconds: 738



LOG file for integration channel /P0_uxu_emep/all_G1_6, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37521
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           6
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  18942
  with seed                   48
 Ranmar initialization seeds       30233       28367
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441120D+04 0.441120D+04  1.00
 muF1, muF1_reference: 0.441120D+04 0.441120D+04  1.00
 muF2, muF2_reference: 0.441120D+04 0.441120D+04  1.00
 QES,  QES_reference:  0.441120D+04 0.441120D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4693657303567723E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4693657303567723E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5908360382379981E-006           OLP:   -3.5908360382380032E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7744849667148125E-006           OLP:   -7.7744849667147871E-006
  FINITE:
           OLP:   -7.0243567068442738E-005
           BORN:    1.0348641934478501E-003
  MOMENTA (Exyzm): 
           1   2205.5997126017428        0.0000000000000000        0.0000000000000000        2205.5997126017428        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2205.5997126017428       -0.0000000000000000       -0.0000000000000000       -2205.5997126017428        0.0000000000000000     
           3   2205.5997126017428       -2060.8131143703858       -192.92965203969902        761.90389763523478        0.0000000000000000     
           4   2205.5997126017428        2060.8131143703858        192.92965203969902       -761.90389763523478        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5908360382379981E-006           OLP:   -3.5908360382380032E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7744849667148125E-006           OLP:   -7.7744849667147871E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8963E-06  +/-  0.1770E-08  (   0.197 %)
Integral      = 0.5165E-06  +/-  0.2023E-08  (   0.392 %)
Virtual       = 0.1941E-08  +/-  0.1070E-08  (  55.116 %)
Virtual ratio = -.1947E+00  +/-  0.4173E-03  (   0.214 %)
ABS virtual   = 0.4845E-06  +/-  0.8514E-09  (   0.176 %)
Born          = 0.1877E-05  +/-  0.2698E-08  (   0.144 %)
V  2          = 0.1941E-08  +/-  0.1070E-08  (  55.116 %)
B  2          = 0.1877E-05  +/-  0.2698E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8963E-06  +/-  0.1770E-08  (   0.197 %)
accumulated results Integral      = 0.5165E-06  +/-  0.2023E-08  (   0.392 %)
accumulated results Virtual       = 0.1941E-08  +/-  0.1070E-08  (  55.116 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4173E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4845E-06  +/-  0.8514E-09  (   0.176 %)
accumulated results Born          = 0.1877E-05  +/-  0.2698E-08  (   0.144 %)
accumulated results V  2          = 0.1941E-08  +/-  0.1070E-08  (  55.116 %)
accumulated results B  2          = 0.1877E-05  +/-  0.2698E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   206518    23880  0.3270E-06  0.1847E-06  0.9976E+00
channel    2 :     1 T   206046    24697  0.3330E-06  0.2012E-06  0.9846E+00
channel    3 :     2 T    73430     8614  0.1174E-06  0.6272E-07  0.9486E+00
channel    4 :     2 T    73881     8343  0.1189E-06  0.6781E-07  0.9941E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9626302827573255E-007  +/-   1.7700845509937861E-009
 Final result:   5.1652670710327740E-007  +/-   2.0227288182249198E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399020
   Stability unknown:                                          0
   Stable PS point:                                       399020
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399020
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399020
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21875095    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.83133030    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.24430418    
 Time spent in Integrated_CT :    8.96789551    
 Time spent in Virtuals :    547.773438    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.42799568    
 Time spent in N1body_prefactor :   0.636052847    
 Time spent in Adding_alphas_pdf :    10.3333845    
 Time spent in Reweight_scale :    39.0851402    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7192879    
 Time spent in Applying_cuts :    4.94216347    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.7958412    
 Time spent in Other_tasks :    20.7545166    
 Time spent in Total :    702.730042    
Time in seconds: 711



LOG file for integration channel /P0_uxu_emep/all_G1_7, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37530
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           7
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  22099
  with seed                   48
 Ranmar initialization seeds       30233        1443
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438067D+04 0.438067D+04  1.00
 muF1, muF1_reference: 0.438067D+04 0.438067D+04  1.00
 muF2, muF2_reference: 0.438067D+04 0.438067D+04  1.00
 QES,  QES_reference:  0.438067D+04 0.438067D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4742467866172543E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4742467866172543E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9628991285052035E-006           OLP:   -3.9628991285051984E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1100086170349169E-006           OLP:   -8.1100086170349576E-006
  FINITE:
           OLP:   -9.2783570264953920E-005
           BORN:    1.1420912474600464E-003
  MOMENTA (Exyzm): 
           1   2190.3343763712242        0.0000000000000000        0.0000000000000000        2190.3343763712242        0.0000000000000000     
           2   2190.3343763712242       -0.0000000000000000       -0.0000000000000000       -2190.3343763712242        0.0000000000000000     
           3   2190.3343763712242       -1900.7360569692039       -887.56977832298639        630.06905229376787        0.0000000000000000     
           4   2190.3343763712242        1900.7360569692039        887.56977832298639       -630.06905229376787        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9628991285052035E-006           OLP:   -3.9628991285051984E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.1100086170349169E-006           OLP:   -8.1100086170349576E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8947E-06  +/-  0.1850E-08  (   0.207 %)
Integral      = 0.5139E-06  +/-  0.2093E-08  (   0.407 %)
Virtual       = 0.7050E-09  +/-  0.1061E-08  ( 150.547 %)
Virtual ratio = -.1952E+00  +/-  0.4173E-03  (   0.214 %)
ABS virtual   = 0.4819E-06  +/-  0.8436E-09  (   0.175 %)
Born          = 0.1869E-05  +/-  0.2679E-08  (   0.143 %)
V  2          = 0.7050E-09  +/-  0.1061E-08  ( 150.547 %)
B  2          = 0.1869E-05  +/-  0.2679E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8947E-06  +/-  0.1850E-08  (   0.207 %)
accumulated results Integral      = 0.5139E-06  +/-  0.2093E-08  (   0.407 %)
accumulated results Virtual       = 0.7050E-09  +/-  0.1061E-08  ( 150.547 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4173E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4819E-06  +/-  0.8436E-09  (   0.175 %)
accumulated results Born          = 0.1869E-05  +/-  0.2679E-08  (   0.143 %)
accumulated results V  2          = 0.7050E-09  +/-  0.1061E-08  ( 150.547 %)
accumulated results B  2          = 0.1869E-05  +/-  0.2679E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206475    23880  0.3291E-06  0.1862E-06  0.9431E+00
channel    2 :     1 T   207211    24697  0.3311E-06  0.1998E-06  0.9812E+00
channel    3 :     2 T    73449     8614  0.1178E-06  0.6172E-07  0.9185E+00
channel    4 :     2 T    72739     8343  0.1168E-06  0.6627E-07  0.8981E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9473302170403559E-007  +/-   1.8498478119118581E-009
 Final result:   5.1391779245285687E-007  +/-   2.0928633000383021E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398962
   Stability unknown:                                          0
   Stable PS point:                                       398962
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398962
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398962
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21992397    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.73992062    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.32317209    
 Time spent in Integrated_CT :    8.85815430    
 Time spent in Virtuals :    544.718262    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.34927559    
 Time spent in N1body_prefactor :   0.639029801    
 Time spent in Adding_alphas_pdf :    10.4222841    
 Time spent in Reweight_scale :    39.3924561    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8135700    
 Time spent in Applying_cuts :    4.95678043    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.9194221    
 Time spent in Other_tasks :    20.3041382    
 Time spent in Total :    699.656494    
Time in seconds: 706



LOG file for integration channel /P0_uxu_emep/all_G1_8, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37519
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           8
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  25256
  with seed                   48
 Ranmar initialization seeds       30233        4600
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434524D+04 0.434524D+04  1.00
 muF1, muF1_reference: 0.434524D+04 0.434524D+04  1.00
 muF2, muF2_reference: 0.434524D+04 0.434524D+04  1.00
 QES,  QES_reference:  0.434524D+04 0.434524D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4799616152849871E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4799616152849871E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5413772625326372E-006           OLP:   -3.5413772625326410E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7286658607443019E-006           OLP:   -7.7286658607443307E-006
  FINITE:
           OLP:   -6.5800510600464958E-005
           BORN:    1.0206103774885000E-003
  MOMENTA (Exyzm): 
           1   2172.6197629702515        0.0000000000000000        0.0000000000000000        2172.6197629702515        0.0000000000000000     
           2   2172.6197629702515       -0.0000000000000000       -0.0000000000000000       -2172.6197629702515        0.0000000000000000     
           3   2172.6197629702515       -2017.0861725758441       -247.44495475775932        768.38206721472523        0.0000000000000000     
           4   2172.6197629702515        2017.0861725758441        247.44495475775932       -768.38206721472523        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5413772625326372E-006           OLP:   -3.5413772625326410E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.7286658607443019E-006           OLP:   -7.7286658607443307E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8920E-06  +/-  0.1758E-08  (   0.197 %)
Integral      = 0.5139E-06  +/-  0.2010E-08  (   0.391 %)
Virtual       = 0.2595E-09  +/-  0.1066E-08  ( 410.906 %)
Virtual ratio = -.1949E+00  +/-  0.4171E-03  (   0.214 %)
ABS virtual   = 0.4828E-06  +/-  0.8489E-09  (   0.176 %)
Born          = 0.1873E-05  +/-  0.2690E-08  (   0.144 %)
V  2          = 0.2595E-09  +/-  0.1066E-08  ( 410.906 %)
B  2          = 0.1873E-05  +/-  0.2690E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8920E-06  +/-  0.1758E-08  (   0.197 %)
accumulated results Integral      = 0.5139E-06  +/-  0.2010E-08  (   0.391 %)
accumulated results Virtual       = 0.2595E-09  +/-  0.1066E-08  ( 410.906 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4171E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8489E-09  (   0.176 %)
accumulated results Born          = 0.1873E-05  +/-  0.2690E-08  (   0.144 %)
accumulated results V  2          = 0.2595E-09  +/-  0.1066E-08  ( 410.906 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2690E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205722    23880  0.3263E-06  0.1858E-06  0.1000E+01
channel    2 :     1 T   206492    24697  0.3301E-06  0.1982E-06  0.9724E+00
channel    3 :     2 T    73963     8614  0.1177E-06  0.6278E-07  0.9819E+00
channel    4 :     2 T    73691     8343  0.1179E-06  0.6721E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9203434246821329E-007  +/-   1.7583241480407976E-009
 Final result:   5.1392757145799625E-007  +/-   2.0102768954648136E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398748
   Stability unknown:                                          0
   Stable PS point:                                       398748
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398748
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398748
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20935428    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.69985485    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.25123262    
 Time spent in Integrated_CT :    8.72705078    
 Time spent in Virtuals :    542.737244    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.41110611    
 Time spent in N1body_prefactor :   0.646129370    
 Time spent in Adding_alphas_pdf :    10.4939623    
 Time spent in Reweight_scale :    39.4862137    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5212259    
 Time spent in Applying_cuts :    4.91551304    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.7581940    
 Time spent in Other_tasks :    20.4177246    
 Time spent in Total :    697.274841    
Time in seconds: 705



LOG file for integration channel /P0_uxu_emep/all_G1_9, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32817
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           9
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  28413
  with seed                   48
 Ranmar initialization seeds       30233        7757
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419115D+04 0.419115D+04  1.00
 muF1, muF1_reference: 0.419115D+04 0.419115D+04  1.00
 muF2, muF2_reference: 0.419115D+04 0.419115D+04  1.00
 QES,  QES_reference:  0.419115D+04 0.419115D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5054733327980322E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5054733327980322E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0276094465078606E-006           OLP:   -4.0276094465078623E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1663661075442672E-006           OLP:   -8.1663661075442740E-006
  FINITE:
           OLP:   -9.1980548201075704E-005
           BORN:    1.1607404952492697E-003
  MOMENTA (Exyzm): 
           1   2095.5753833649892        0.0000000000000000        0.0000000000000000        2095.5753833649892        0.0000000000000000     
           2   2095.5753833649892       -0.0000000000000000       -0.0000000000000000       -2095.5753833649892        0.0000000000000000     
           3   2095.5753833649892       -1839.3941035545620       -817.35765836325561        583.08831019749175        0.0000000000000000     
           4   2095.5753833649892        1839.3941035545620        817.35765836325561       -583.08831019749175        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0276094465078606E-006           OLP:   -4.0276094465078623E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.1663661075442655E-006           OLP:   -8.1663661075442740E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.8973E-06  +/-  0.1801E-08  (   0.201 %)
Integral      = 0.5156E-06  +/-  0.2051E-08  (   0.398 %)
Virtual       = 0.1564E-08  +/-  0.1067E-08  (  68.270 %)
Virtual ratio = -.1944E+00  +/-  0.4170E-03  (   0.215 %)
ABS virtual   = 0.4841E-06  +/-  0.8490E-09  (   0.175 %)
Born          = 0.1875E-05  +/-  0.2696E-08  (   0.144 %)
V  2          = 0.1564E-08  +/-  0.1067E-08  (  68.270 %)
B  2          = 0.1875E-05  +/-  0.2696E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8973E-06  +/-  0.1801E-08  (   0.201 %)
accumulated results Integral      = 0.5156E-06  +/-  0.2051E-08  (   0.398 %)
accumulated results Virtual       = 0.1564E-08  +/-  0.1067E-08  (  68.270 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4170E-03  (   0.215 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8490E-09  (   0.175 %)
accumulated results Born          = 0.1875E-05  +/-  0.2696E-08  (   0.144 %)
accumulated results V  2          = 0.1564E-08  +/-  0.1067E-08  (  68.270 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2696E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205818    23880  0.3269E-06  0.1852E-06  0.9799E+00
channel    2 :     1 T   207128    24697  0.3344E-06  0.1997E-06  0.9604E+00
channel    3 :     2 T    73656     8614  0.1176E-06  0.6205E-07  0.9431E+00
channel    4 :     2 T    73271     8343  0.1184E-06  0.6865E-07  0.9975E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9725636157536784E-007  +/-   1.8013109105832076E-009
 Final result:   5.1561011528018382E-007  +/-   2.0512984663290615E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399110
   Stability unknown:                                          0
   Stable PS point:                                       399110
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399110
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399110
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.18369365    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.43020248    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.03545237    
 Time spent in Integrated_CT :    8.76232910    
 Time spent in Virtuals :    541.165283    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.04917431    
 Time spent in N1body_prefactor :   0.567216516    
 Time spent in Adding_alphas_pdf :    9.84481621    
 Time spent in Reweight_scale :    35.9867554    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9279022    
 Time spent in Applying_cuts :    4.83856487    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.1666412    
 Time spent in Other_tasks :    20.0969849    
 Time spent in Total :    690.054993    
Time in seconds: 697



LOG file for integration channel /P0_uxu_emep/all_G1_10, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32821
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          10
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  31570
  with seed                   48
 Ranmar initialization seeds       30233       10914
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436810D+04 0.436810D+04  1.00
 muF1, muF1_reference: 0.436810D+04 0.436810D+04  1.00
 muF2, muF2_reference: 0.436810D+04 0.436810D+04  1.00
 QES,  QES_reference:  0.436810D+04 0.436810D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4762676272661505E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4762676272661518E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5946852141632529E-006           OLP:   -3.5946852141632584E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7780420020480687E-006           OLP:   -7.7780420020479569E-006
  FINITE:
           OLP:   -6.9538323716481149E-005
           BORN:    1.0359735101353597E-003
  MOMENTA (Exyzm): 
           1   2184.0508297985675        0.0000000000000000        0.0000000000000000        2184.0508297985675        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2184.0508297985675       -0.0000000000000000       -0.0000000000000000       -2184.0508297985675        0.0000000000000000     
           3   2184.0508297985675       -1365.8878703180230       -1528.8250580004799        753.07522525424667        0.0000000000000000     
           4   2184.0508297985675        1365.8878703180230        1528.8250580004799       -753.07522525424667        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5946852141632529E-006           OLP:   -3.5946852141632584E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7780420020480687E-006           OLP:   -7.7780420020479569E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8956E-06  +/-  0.1835E-08  (   0.205 %)
Integral      = 0.5130E-06  +/-  0.2081E-08  (   0.406 %)
Virtual       = 0.3171E-09  +/-  0.1066E-08  ( 336.320 %)
Virtual ratio = -.1949E+00  +/-  0.4167E-03  (   0.214 %)
ABS virtual   = 0.4835E-06  +/-  0.8483E-09  (   0.175 %)
Born          = 0.1876E-05  +/-  0.2687E-08  (   0.143 %)
V  2          = 0.3171E-09  +/-  0.1066E-08  ( 336.320 %)
B  2          = 0.1876E-05  +/-  0.2687E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8956E-06  +/-  0.1835E-08  (   0.205 %)
accumulated results Integral      = 0.5130E-06  +/-  0.2081E-08  (   0.406 %)
accumulated results Virtual       = 0.3171E-09  +/-  0.1066E-08  ( 336.320 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4167E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8483E-09  (   0.175 %)
accumulated results Born          = 0.1876E-05  +/-  0.2687E-08  (   0.143 %)
accumulated results V  2          = 0.3171E-09  +/-  0.1066E-08  ( 336.320 %)
accumulated results B  2          = 0.1876E-05  +/-  0.2687E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   205481    23880  0.3271E-06  0.1836E-06  0.9757E+00
channel    2 :     1 T   206920    24697  0.3301E-06  0.1998E-06  0.9780E+00
channel    3 :     2 T    73784     8614  0.1185E-06  0.6147E-07  0.9060E+00
channel    4 :     2 T    73691     8343  0.1199E-06  0.6814E-07  0.9105E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9564734479183907E-007  +/-   1.8354633640982377E-009
 Final result:   5.1300237333137002E-007  +/-   2.0812660932009122E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399284
   Stability unknown:                                          0
   Stable PS point:                                       399284
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399284
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399284
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.16609406    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.40737581    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.08410549    
 Time spent in Integrated_CT :    8.81695557    
 Time spent in Virtuals :    541.438538    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.05279064    
 Time spent in N1body_prefactor :   0.565306365    
 Time spent in Adding_alphas_pdf :    9.85590076    
 Time spent in Reweight_scale :    36.1465569    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8376417    
 Time spent in Applying_cuts :    4.81056023    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.3646202    
 Time spent in Other_tasks :    20.1832275    
 Time spent in Total :    690.729675    
Time in seconds: 698



LOG file for integration channel /P0_uxu_emep/all_G1_11, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32814
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          11
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  34727
  with seed                   48
 Ranmar initialization seeds       30233       14071
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434857D+04 0.434857D+04  1.00
 muF1, muF1_reference: 0.434857D+04 0.434857D+04  1.00
 muF2, muF2_reference: 0.434857D+04 0.434857D+04  1.00
 QES,  QES_reference:  0.434857D+04 0.434857D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4794220756588120E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4794220756588120E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4449904078840899E-006           OLP:   -3.4449904078840827E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6388269000634506E-006           OLP:   -7.6388269000634675E-006
  FINITE:
           OLP:   -6.0070527271086749E-005
           BORN:    9.9283208197941579E-004
  MOMENTA (Exyzm): 
           1   2174.2849578293431        0.0000000000000000        0.0000000000000000        2174.2849578293431        0.0000000000000000     
           2   2174.2849578293431       -0.0000000000000000       -0.0000000000000000       -2174.2849578293431        0.0000000000000000     
           3   2174.2849578293431       -1968.7279868789153       -451.62414107676233        804.77377362791685        0.0000000000000000     
           4   2174.2849578293431        1968.7279868789153        451.62414107676233       -804.77377362791685        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4449904078840899E-006           OLP:   -3.4449904078840827E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6388269000634506E-006           OLP:   -7.6388269000634675E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8954E-06  +/-  0.1841E-08  (   0.206 %)
Integral      = 0.5141E-06  +/-  0.2086E-08  (   0.406 %)
Virtual       = 0.4744E-09  +/-  0.1064E-08  ( 224.226 %)
Virtual ratio = -.1949E+00  +/-  0.4173E-03  (   0.214 %)
ABS virtual   = 0.4833E-06  +/-  0.8452E-09  (   0.175 %)
Born          = 0.1873E-05  +/-  0.2685E-08  (   0.143 %)
V  2          = 0.4744E-09  +/-  0.1064E-08  ( 224.226 %)
B  2          = 0.1873E-05  +/-  0.2685E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8954E-06  +/-  0.1841E-08  (   0.206 %)
accumulated results Integral      = 0.5141E-06  +/-  0.2086E-08  (   0.406 %)
accumulated results Virtual       = 0.4744E-09  +/-  0.1064E-08  ( 224.226 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4173E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8452E-09  (   0.175 %)
accumulated results Born          = 0.1873E-05  +/-  0.2685E-08  (   0.143 %)
accumulated results V  2          = 0.4744E-09  +/-  0.1064E-08  ( 224.226 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2685E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   206946    23880  0.3298E-06  0.1842E-06  0.9477E+00
channel    2 :     1 T   205958    24697  0.3302E-06  0.1993E-06  0.9575E+00
channel    3 :     2 T    73616     8614  0.1171E-06  0.6219E-07  0.9005E+00
channel    4 :     2 T    73349     8343  0.1183E-06  0.6837E-07  0.9943E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9538262685725972E-007  +/-   1.8414098938192778E-009
 Final result:   5.1405674658648602E-007  +/-   2.0858456692083511E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399069
   Stability unknown:                                          0
   Stable PS point:                                       399069
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399069
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399069
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.16830635    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.48571682    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.86577177    
 Time spent in Integrated_CT :    8.55084229    
 Time spent in Virtuals :    527.494873    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.98661518    
 Time spent in N1body_prefactor :   0.573668778    
 Time spent in Adding_alphas_pdf :    9.88688183    
 Time spent in Reweight_scale :    37.1174698    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5377750    
 Time spent in Applying_cuts :    4.73758268    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2462959    
 Time spent in Other_tasks :    19.7403564    
 Time spent in Total :    676.392212    
Time in seconds: 682



LOG file for integration channel /P0_uxu_emep/all_G1_12, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32811
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          12
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  37884
  with seed                   48
 Ranmar initialization seeds       30233       17228
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441982D+04 0.441982D+04  1.00
 muF1, muF1_reference: 0.441982D+04 0.441982D+04  1.00
 muF2, muF2_reference: 0.441982D+04 0.441982D+04  1.00
 QES,  QES_reference:  0.441982D+04 0.441982D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4679952441276717E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4679952441276717E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4275100149871745E-006           OLP:   -3.4275100149871745E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6224772683072735E-006           OLP:   -7.6224772683072311E-006
  FINITE:
           OLP:   -6.0482181647181754E-005
           BORN:    9.8779430456385478E-004
  MOMENTA (Exyzm): 
           1   2209.9086512926442        0.0000000000000000        0.0000000000000000        2209.9086512926442        0.0000000000000000     
           2   2209.9086512926442       -0.0000000000000000       -0.0000000000000000       -2209.9086512926442        0.0000000000000000     
           3   2209.9086512926442       -1639.0352586371032       -1231.7148048418646        824.70498212139216        0.0000000000000000     
           4   2209.9086512926442        1639.0352586371032        1231.7148048418646       -824.70498212139216        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4275100149871745E-006           OLP:   -3.4275100149871745E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.6224772683072743E-006           OLP:   -7.6224772683072311E-006
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.8962E-06  +/-  0.1771E-08  (   0.198 %)
Integral      = 0.5175E-06  +/-  0.2023E-08  (   0.391 %)
Virtual       = 0.1781E-09  +/-  0.1067E-08  ( 599.377 %)
Virtual ratio = -.1950E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4841E-06  +/-  0.8491E-09  (   0.175 %)
Born          = 0.1877E-05  +/-  0.2693E-08  (   0.143 %)
V  2          = 0.1781E-09  +/-  0.1067E-08  ( 599.377 %)
B  2          = 0.1877E-05  +/-  0.2693E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8962E-06  +/-  0.1771E-08  (   0.198 %)
accumulated results Integral      = 0.5175E-06  +/-  0.2023E-08  (   0.391 %)
accumulated results Virtual       = 0.1781E-09  +/-  0.1067E-08  ( 599.377 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8491E-09  (   0.175 %)
accumulated results Born          = 0.1877E-05  +/-  0.2693E-08  (   0.143 %)
accumulated results V  2          = 0.1781E-09  +/-  0.1067E-08  ( 599.377 %)
accumulated results B  2          = 0.1877E-05  +/-  0.2693E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                               2                3                     4
channel    1 :     1 T   205530    23880  0.3259E-06  0.1850E-06  0.1000E+01
channel    2 :     1 T   207315    24697  0.3341E-06  0.1996E-06  0.9582E+00
channel    3 :     2 T    73515     8614  0.1175E-06  0.6340E-07  0.9673E+00
channel    4 :     2 T    73508     8343  0.1188E-06  0.6949E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9619171883535048E-007  +/-   1.7713552376535035E-009
 Final result:   5.1746274121402402E-007  +/-   2.0233573422543456E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399206
   Stability unknown:                                          0
   Stable PS point:                                       399206
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399206
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399206
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20253468    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.41668177    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.91636705    
 Time spent in Integrated_CT :    8.58618164    
 Time spent in Virtuals :    527.996948    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.92458820    
 Time spent in N1body_prefactor :   0.586809218    
 Time spent in Adding_alphas_pdf :    9.80794430    
 Time spent in Reweight_scale :    36.9228401    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5750113    
 Time spent in Applying_cuts :    4.68585253    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.1865540    
 Time spent in Other_tasks :    19.3576050    
 Time spent in Total :    676.165833    
Time in seconds: 682



LOG file for integration channel /P0_uxu_emep/all_G1_13, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32754
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          13
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  41041
  with seed                   48
 Ranmar initialization seeds       30233       20385
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434469D+04 0.434469D+04  1.00
 muF1, muF1_reference: 0.434469D+04 0.434469D+04  1.00
 muF2, muF2_reference: 0.434469D+04 0.434469D+04  1.00
 QES,  QES_reference:  0.434469D+04 0.434469D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4800511165048322E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4800511165048322E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0851555993511348E-006           OLP:   -4.0851555993511263E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2158583366726272E-006           OLP:   -8.2158583366725289E-006
  FINITE:
           OLP:   -9.9645571276013879E-005
           BORN:    1.1773250600731772E-003
  MOMENTA (Exyzm): 
           1   2172.3436787425617        0.0000000000000000        0.0000000000000000        2172.3436787425617        0.0000000000000000     
           2   2172.3436787425617       -0.0000000000000000       -0.0000000000000000       -2172.3436787425617        0.0000000000000000     
           3   2172.3436787425617       -1422.3371809242403       -1533.6207271758060        586.55048163819879        0.0000000000000000     
           4   2172.3436787425617        1422.3371809242403        1533.6207271758060       -586.55048163819879        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0851555993511348E-006           OLP:   -4.0851555993511263E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2158583366726255E-006           OLP:   -8.2158583366725289E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8938E-06  +/-  0.1790E-08  (   0.200 %)
Integral      = 0.5121E-06  +/-  0.2040E-08  (   0.398 %)
Virtual       = -.4480E-09  +/-  0.1064E-08  ( 237.531 %)
Virtual ratio = -.1953E+00  +/-  0.4172E-03  (   0.214 %)
ABS virtual   = 0.4830E-06  +/-  0.8459E-09  (   0.175 %)
Born          = 0.1873E-05  +/-  0.2681E-08  (   0.143 %)
V  2          = -.4480E-09  +/-  0.1064E-08  ( 237.531 %)
B  2          = 0.1873E-05  +/-  0.2681E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8938E-06  +/-  0.1790E-08  (   0.200 %)
accumulated results Integral      = 0.5121E-06  +/-  0.2040E-08  (   0.398 %)
accumulated results Virtual       = -.4480E-09  +/-  0.1064E-08  ( 237.531 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4172E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8459E-09  (   0.175 %)
accumulated results Born          = 0.1873E-05  +/-  0.2681E-08  (   0.143 %)
accumulated results V  2          = -.4480E-09  +/-  0.1064E-08  ( 237.531 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2681E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205927    23880  0.3274E-06  0.1843E-06  0.9870E+00
channel    2 :     1 T   207273    24697  0.3312E-06  0.1992E-06  0.9670E+00
channel    3 :     2 T    73470     8614  0.1180E-06  0.6199E-07  0.9304E+00
channel    4 :     2 T    73210     8343  0.1172E-06  0.6665E-07  0.9940E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9383664289850731E-007  +/-   1.7899851751840812E-009
 Final result:   5.1210673099096544E-007  +/-   2.0402554198407032E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398821
   Stability unknown:                                          0
   Stable PS point:                                       398821
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398821
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398821
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.16964781    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.50580215    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.88004780    
 Time spent in Integrated_CT :    8.66082764    
 Time spent in Virtuals :    529.519653    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.95967293    
 Time spent in N1body_prefactor :   0.592978597    
 Time spent in Adding_alphas_pdf :    9.95252991    
 Time spent in Reweight_scale :    37.3365479    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6853943    
 Time spent in Applying_cuts :    4.67446518    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.1611252    
 Time spent in Other_tasks :    19.7035522    
 Time spent in Total :    678.802185    
Time in seconds: 685



LOG file for integration channel /P0_uxu_emep/all_G1_14, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32764
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          14
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  44198
  with seed                   48
 Ranmar initialization seeds       30233       23542
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437320D+04 0.437320D+04  1.00
 muF1, muF1_reference: 0.437320D+04 0.437320D+04  1.00
 muF2, muF2_reference: 0.437320D+04 0.437320D+04  1.00
 QES,  QES_reference:  0.437320D+04 0.437320D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4754472370658132E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4754472370658132E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4613089361023169E-006           OLP:   -3.4613089361023246E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6540797735050878E-006           OLP:   -7.6540797735050539E-006
  FINITE:
           OLP:   -6.1560095153818947E-005
           BORN:    9.9753501476804239E-004
  MOMENTA (Exyzm): 
           1   2186.5991595130204        0.0000000000000000        0.0000000000000000        2186.5991595130204        0.0000000000000000     
           2   2186.5991595130204       -0.0000000000000000       -0.0000000000000000       -2186.5991595130204        0.0000000000000000     
           3   2186.5991595130204       -1920.6249880405965       -668.86234875625837        803.14301224213250        0.0000000000000000     
           4   2186.5991595130204        1920.6249880405965        668.86234875625837       -803.14301224213250        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4613089361023169E-006           OLP:   -3.4613089361023246E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6540797735050895E-006           OLP:   -7.6540797735050539E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8969E-06  +/-  0.1864E-08  (   0.208 %)
Integral      = 0.5132E-06  +/-  0.2107E-08  (   0.411 %)
Virtual       = -.2004E-09  +/-  0.1066E-08  ( 531.854 %)
Virtual ratio = -.1955E+00  +/-  0.4170E-03  (   0.213 %)
ABS virtual   = 0.4834E-06  +/-  0.8475E-09  (   0.175 %)
Born          = 0.1874E-05  +/-  0.2697E-08  (   0.144 %)
V  2          = -.2004E-09  +/-  0.1066E-08  ( 531.854 %)
B  2          = 0.1874E-05  +/-  0.2697E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8969E-06  +/-  0.1864E-08  (   0.208 %)
accumulated results Integral      = 0.5132E-06  +/-  0.2107E-08  (   0.411 %)
accumulated results Virtual       = -.2004E-09  +/-  0.1066E-08  ( 531.854 %)
accumulated results Virtual ratio = -.1955E+00  +/-  0.4170E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8475E-09  (   0.175 %)
accumulated results Born          = 0.1874E-05  +/-  0.2697E-08  (   0.144 %)
accumulated results V  2          = -.2004E-09  +/-  0.1066E-08  ( 531.854 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2697E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205587    23880  0.3260E-06  0.1840E-06  0.9714E+00
channel    2 :     1 T   207169    24697  0.3335E-06  0.1992E-06  0.9027E+00
channel    3 :     2 T    73778     8614  0.1185E-06  0.6281E-07  0.9408E+00
channel    4 :     2 T    73343     8343  0.1189E-06  0.6717E-07  0.9921E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9687715281799598E-007  +/-   1.8635332556682087E-009
 Final result:   5.1321512941341005E-007  +/-   2.1069044712438117E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398715
   Stability unknown:                                          0
   Stable PS point:                                       398715
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398715
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398715
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.18312669    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.53471899    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.00597095    
 Time spent in Integrated_CT :    8.82781982    
 Time spent in Virtuals :    542.705750    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.01965237    
 Time spent in N1body_prefactor :   0.566717386    
 Time spent in Adding_alphas_pdf :    9.79810715    
 Time spent in Reweight_scale :    36.0921364    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9844112    
 Time spent in Applying_cuts :    4.85399055    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.1911697    
 Time spent in Other_tasks :    20.0153809    
 Time spent in Total :    691.778992    
Time in seconds: 703



LOG file for integration channel /P0_uxu_emep/all_G1_15, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32756
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          15
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  47355
  with seed                   48
 Ranmar initialization seeds       30233       26699
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422153D+04 0.422153D+04  1.00
 muF1, muF1_reference: 0.422153D+04 0.422153D+04  1.00
 muF2, muF2_reference: 0.422153D+04 0.422153D+04  1.00
 QES,  QES_reference:  0.422153D+04 0.422153D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5003565560293889E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5003565560293889E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0196633747610728E-006           OLP:   -4.0196633747610643E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1594803615821452E-006           OLP:   -8.1594803615821333E-006
  FINITE:
           OLP:   -9.2282954117354305E-005
           BORN:    1.1584504700178884E-003
  MOMENTA (Exyzm): 
           1   2110.7653874024768        0.0000000000000000        0.0000000000000000        2110.7653874024768        0.0000000000000000     
           2   2110.7653874024768       -0.0000000000000000       -0.0000000000000000       -2110.7653874024768        0.0000000000000000     
           3   2110.7653874024768       -1984.7232913433515       -410.38593848458896        589.73499044033724        0.0000000000000000     
           4   2110.7653874024768        1984.7232913433515        410.38593848458896       -589.73499044033724        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0196633747610728E-006           OLP:   -4.0196633747610643E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.1594803615821435E-006           OLP:   -8.1594803615821333E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8973E-06  +/-  0.1795E-08  (   0.200 %)
Integral      = 0.5144E-06  +/-  0.2046E-08  (   0.398 %)
Virtual       = -.3645E-09  +/-  0.1070E-08  ( 293.717 %)
Virtual ratio = -.1949E+00  +/-  0.4168E-03  (   0.214 %)
ABS virtual   = 0.4845E-06  +/-  0.8525E-09  (   0.176 %)
Born          = 0.1878E-05  +/-  0.2706E-08  (   0.144 %)
V  2          = -.3645E-09  +/-  0.1070E-08  ( 293.717 %)
B  2          = 0.1878E-05  +/-  0.2706E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8973E-06  +/-  0.1795E-08  (   0.200 %)
accumulated results Integral      = 0.5144E-06  +/-  0.2046E-08  (   0.398 %)
accumulated results Virtual       = -.3645E-09  +/-  0.1070E-08  ( 293.717 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4168E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4845E-06  +/-  0.8525E-09  (   0.176 %)
accumulated results Born          = 0.1878E-05  +/-  0.2706E-08  (   0.144 %)
accumulated results V  2          = -.3645E-09  +/-  0.1070E-08  ( 293.717 %)
accumulated results B  2          = 0.1878E-05  +/-  0.2706E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   206445    23880  0.3276E-06  0.1845E-06  0.1000E+01
channel    2 :     1 T   206378    24697  0.3310E-06  0.1986E-06  0.9762E+00
channel    3 :     2 T    73707     8614  0.1187E-06  0.6267E-07  0.9427E+00
channel    4 :     2 T    73341     8343  0.1200E-06  0.6871E-07  0.9403E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9733287535017676E-007  +/-   1.7948864531778043E-009
 Final result:   5.1444793114920222E-007  +/-   2.0462417337534385E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399100
   Stability unknown:                                          0
   Stable PS point:                                       399100
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399100
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399100
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19795918    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.40732288    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.02492714    
 Time spent in Integrated_CT :    8.82965088    
 Time spent in Virtuals :    543.948547    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.05297375    
 Time spent in N1body_prefactor :   0.570523143    
 Time spent in Adding_alphas_pdf :    9.81426048    
 Time spent in Reweight_scale :    35.9938545    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9086819    
 Time spent in Applying_cuts :    4.86649656    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2566605    
 Time spent in Other_tasks :    19.9874878    
 Time spent in Total :    692.859314    
Time in seconds: 706



LOG file for integration channel /P0_uxu_emep/all_G1_16, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32733
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          16
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  50512
  with seed                   48
 Ranmar initialization seeds       30233       29856
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431219D+04 0.431219D+04  1.00
 muF1, muF1_reference: 0.431219D+04 0.431219D+04  1.00
 muF2, muF2_reference: 0.431219D+04 0.431219D+04  1.00
 QES,  QES_reference:  0.431219D+04 0.431219D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4853420130250467E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 REAL 1: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.4904055827885577E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7428914284082250E-006           OLP:   -3.7428914284082246E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9137821583545369E-006           OLP:   -7.9137821583544590E-006
  FINITE:
           OLP:   -7.6640880606396015E-005
           BORN:    1.0786859321828563E-003
  MOMENTA (Exyzm): 
           1   2140.6811957393152        0.0000000000000000        0.0000000000000000        2140.6811957393152        0.0000000000000000     
           2   2140.6811957393152       -0.0000000000000000       -0.0000000000000000       -2140.6811957393152        0.0000000000000000     
           3   2140.6811957393152       -1367.3653488068926       -1496.8671247472337        687.18032242276774        0.0000000000000000     
           4   2140.6811957393152        1367.3653488068926        1496.8671247472337       -687.18032242276774        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7428914284082250E-006           OLP:   -3.7428914284082246E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9137821583545369E-006           OLP:   -7.9137821583544590E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8947E-06  +/-  0.1826E-08  (   0.204 %)
Integral      = 0.5159E-06  +/-  0.2071E-08  (   0.401 %)
Virtual       = 0.3983E-09  +/-  0.1067E-08  ( 267.765 %)
Virtual ratio = -.1947E+00  +/-  0.4170E-03  (   0.214 %)
ABS virtual   = 0.4836E-06  +/-  0.8484E-09  (   0.175 %)
Born          = 0.1875E-05  +/-  0.2692E-08  (   0.144 %)
V  2          = 0.3983E-09  +/-  0.1067E-08  ( 267.765 %)
B  2          = 0.1875E-05  +/-  0.2692E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8947E-06  +/-  0.1826E-08  (   0.204 %)
accumulated results Integral      = 0.5159E-06  +/-  0.2071E-08  (   0.401 %)
accumulated results Virtual       = 0.3983E-09  +/-  0.1067E-08  ( 267.765 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4170E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8484E-09  (   0.175 %)
accumulated results Born          = 0.1875E-05  +/-  0.2692E-08  (   0.144 %)
accumulated results V  2          = 0.3983E-09  +/-  0.1067E-08  ( 267.765 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2692E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205779    23880  0.3258E-06  0.1847E-06  0.1000E+01
channel    2 :     1 T   206946    24697  0.3310E-06  0.1998E-06  0.9137E+00
channel    3 :     2 T    73826     8614  0.1191E-06  0.6352E-07  0.9694E+00
channel    4 :     2 T    73323     8343  0.1189E-06  0.6797E-07  0.9563E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9474889563169632E-007  +/-   1.8264843371681449E-009
 Final result:   5.1594178472947860E-007  +/-   2.0713552550406471E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398851
   Stability unknown:                                          0
   Stable PS point:                                       398851
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398851
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398851
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17569947    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.44684315    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.86539268    
 Time spent in Integrated_CT :    8.58587646    
 Time spent in Virtuals :    529.310791    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.89904594    
 Time spent in N1body_prefactor :   0.584519088    
 Time spent in Adding_alphas_pdf :    9.85511589    
 Time spent in Reweight_scale :    37.0937386    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8710012    
 Time spent in Applying_cuts :    4.62698650    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2415848    
 Time spent in Other_tasks :    19.4816284    
 Time spent in Total :    678.038208    
Time in seconds: 689



LOG file for integration channel /P0_uxu_emep/all_G1_17, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32739
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          17
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  53669
  with seed                   48
 Ranmar initialization seeds       30233        2932
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435172D+04 0.435172D+04  1.00
 muF1, muF1_reference: 0.435172D+04 0.435172D+04  1.00
 muF2, muF2_reference: 0.435172D+04 0.435172D+04  1.00
 QES,  QES_reference:  0.435172D+04 0.435172D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4789125601108911E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4789125601108924E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6332321745291997E-006           OLP:   -3.6332321745292002E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8135783281191718E-006           OLP:   -7.8135783281191803E-006
  FINITE:
           OLP:   -7.1533124044760907E-005
           BORN:    1.0470825857445444E-003
  MOMENTA (Exyzm): 
           1   2175.8588724832089        0.0000000000000000        0.0000000000000000        2175.8588724832089        0.0000000000000000     
           2   2175.8588724832089       -0.0000000000000000       -0.0000000000000000       -2175.8588724832089        0.0000000000000000     
           3   2175.8588724832089       -1171.9166363217596       -1678.8358977695259        736.53462840288967        0.0000000000000000     
           4   2175.8588724832089        1171.9166363217596        1678.8358977695259       -736.53462840288967        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6332321745291997E-006           OLP:   -3.6332321745292002E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.8135783281191718E-006           OLP:   -7.8135783281191803E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8965E-06  +/-  0.1830E-08  (   0.204 %)
Integral      = 0.5156E-06  +/-  0.2076E-08  (   0.403 %)
Virtual       = -.4163E-09  +/-  0.1066E-08  ( 256.168 %)
Virtual ratio = -.1954E+00  +/-  0.4173E-03  (   0.214 %)
ABS virtual   = 0.4833E-06  +/-  0.8484E-09  (   0.176 %)
Born          = 0.1875E-05  +/-  0.2689E-08  (   0.143 %)
V  2          = -.4163E-09  +/-  0.1066E-08  ( 256.168 %)
B  2          = 0.1875E-05  +/-  0.2689E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8965E-06  +/-  0.1830E-08  (   0.204 %)
accumulated results Integral      = 0.5156E-06  +/-  0.2076E-08  (   0.403 %)
accumulated results Virtual       = -.4163E-09  +/-  0.1066E-08  ( 256.168 %)
accumulated results Virtual ratio = -.1954E+00  +/-  0.4173E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8484E-09  (   0.176 %)
accumulated results Born          = 0.1875E-05  +/-  0.2689E-08  (   0.143 %)
accumulated results V  2          = -.4163E-09  +/-  0.1066E-08  ( 256.168 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2689E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205528    23880  0.3262E-06  0.1851E-06  0.1000E+01
channel    2 :     1 T   206753    24697  0.3345E-06  0.1986E-06  0.9052E+00
channel    3 :     2 T    73809     8614  0.1177E-06  0.6354E-07  0.9576E+00
channel    4 :     2 T    73788     8343  0.1182E-06  0.6829E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9647542816405358E-007  +/-   1.8300946518789220E-009
 Final result:   5.1555042530287319E-007  +/-   2.0760440260619132E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399230
   Stability unknown:                                          0
   Stable PS point:                                       399230
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399230
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399230
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19915700    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.45453358    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.92044449    
 Time spent in Integrated_CT :    8.60028076    
 Time spent in Virtuals :    528.972290    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.94035101    
 Time spent in N1body_prefactor :   0.585111022    
 Time spent in Adding_alphas_pdf :    9.92385864    
 Time spent in Reweight_scale :    37.1420441    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7824707    
 Time spent in Applying_cuts :    4.71813583    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2566261    
 Time spent in Other_tasks :    19.6880493    
 Time spent in Total :    678.183411    
Time in seconds: 689



LOG file for integration channel /P0_uxu_emep/all_G1_18, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32741
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          18
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  56826
  with seed                   48
 Ranmar initialization seeds       30233        6089
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435167D+04 0.435167D+04  1.00
 muF1, muF1_reference: 0.435167D+04 0.435167D+04  1.00
 muF2, muF2_reference: 0.435167D+04 0.435167D+04  1.00
 QES,  QES_reference:  0.435167D+04 0.435167D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4789198954493472E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4789198954493472E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6148767066720795E-006           OLP:   -3.6148767066720714E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7966752569484857E-006           OLP:   -7.7966752569485704E-006
  FINITE:
           OLP:   -7.0409768670088392E-005
           BORN:    1.0417926153206546E-003
  MOMENTA (Exyzm): 
           1   2175.8362037753191        0.0000000000000000        0.0000000000000000        2175.8362037753191        0.0000000000000000     
           2   2175.8362037753191       -0.0000000000000000       -0.0000000000000000       -2175.8362037753191        0.0000000000000000     
           3   2175.8362037753191       -1647.2549451034392       -1211.9045388377092        743.03547710470480        0.0000000000000000     
           4   2175.8362037753191        1647.2549451034392        1211.9045388377092       -743.03547710470480        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6148767066720795E-006           OLP:   -3.6148767066720714E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7966752569484874E-006           OLP:   -7.7966752569485704E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8969E-06  +/-  0.1853E-08  (   0.207 %)
Integral      = 0.5143E-06  +/-  0.2097E-08  (   0.408 %)
Virtual       = 0.4729E-09  +/-  0.1065E-08  ( 225.280 %)
Virtual ratio = -.1947E+00  +/-  0.4172E-03  (   0.214 %)
ABS virtual   = 0.4834E-06  +/-  0.8470E-09  (   0.175 %)
Born          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
V  2          = 0.4729E-09  +/-  0.1065E-08  ( 225.280 %)
B  2          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8969E-06  +/-  0.1853E-08  (   0.207 %)
accumulated results Integral      = 0.5143E-06  +/-  0.2097E-08  (   0.408 %)
accumulated results Virtual       = 0.4729E-09  +/-  0.1065E-08  ( 225.280 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4172E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8470E-09  (   0.175 %)
accumulated results Born          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
accumulated results V  2          = 0.4729E-09  +/-  0.1065E-08  ( 225.280 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206015    23880  0.3272E-06  0.1857E-06  0.9738E+00
channel    2 :     1 T   206810    24697  0.3339E-06  0.1992E-06  0.9076E+00
channel    3 :     2 T    73693     8614  0.1175E-06  0.6236E-07  0.9693E+00
channel    4 :     2 T    73351     8343  0.1183E-06  0.6717E-07  0.9730E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9687681122238765E-007  +/-   1.8531527442642372E-009
 Final result:   5.1434039491884079E-007  +/-   2.0972360406556451E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399044
   Stability unknown:                                          0
   Stable PS point:                                       399044
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399044
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399044
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.15781355    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.49039364    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.90159655    
 Time spent in Integrated_CT :    8.49737549    
 Time spent in Virtuals :    530.036804    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.95192575    
 Time spent in N1body_prefactor :   0.566788077    
 Time spent in Adding_alphas_pdf :    9.82923603    
 Time spent in Reweight_scale :    37.2307739    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8387842    
 Time spent in Applying_cuts :    4.67349768    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.1526260    
 Time spent in Other_tasks :    19.5981445    
 Time spent in Total :    678.925781    
Time in seconds: 690



LOG file for integration channel /P0_uxu_emep/all_G1_19, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32742
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          19
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  59983
  with seed                   48
 Ranmar initialization seeds       30233        9246
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431887D+04 0.431887D+04  1.00
 muF1, muF1_reference: 0.431887D+04 0.431887D+04  1.00
 muF2, muF2_reference: 0.431887D+04 0.431887D+04  1.00
 QES,  QES_reference:  0.431887D+04 0.431887D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4842501501799774E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4842501501799774E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5746705307052382E-006           OLP:   -3.5746705307052382E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7595338108429710E-006           OLP:   -7.7595338108429914E-006
  FINITE:
           OLP:   -6.7242909941360140E-005
           BORN:    1.0302053605920974E-003
  MOMENTA (Exyzm): 
           1   2159.4373811899150        0.0000000000000000        0.0000000000000000        2159.4373811899150        0.0000000000000000     
           2   2159.4373811899150       -0.0000000000000000       -0.0000000000000000       -2159.4373811899150        0.0000000000000000     
           3   2159.4373811899150       -2022.2919962039086       -91.698049808335114        751.72890926937009        0.0000000000000000     
           4   2159.4373811899150        2022.2919962039086        91.698049808335114       -751.72890926937009        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5746705307052382E-006           OLP:   -3.5746705307052382E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7595338108429710E-006           OLP:   -7.7595338108429914E-006
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8938E-06  +/-  0.1809E-08  (   0.202 %)
Integral      = 0.5127E-06  +/-  0.2057E-08  (   0.401 %)
Virtual       = 0.5096E-09  +/-  0.1068E-08  ( 209.667 %)
Virtual ratio = -.1951E+00  +/-  0.4176E-03  (   0.214 %)
ABS virtual   = 0.4834E-06  +/-  0.8510E-09  (   0.176 %)
Born          = 0.1872E-05  +/-  0.2689E-08  (   0.144 %)
V  2          = 0.5096E-09  +/-  0.1068E-08  ( 209.667 %)
B  2          = 0.1872E-05  +/-  0.2689E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8938E-06  +/-  0.1809E-08  (   0.202 %)
accumulated results Integral      = 0.5127E-06  +/-  0.2057E-08  (   0.401 %)
accumulated results Virtual       = 0.5096E-09  +/-  0.1068E-08  ( 209.667 %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4176E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8510E-09  (   0.176 %)
accumulated results Born          = 0.1872E-05  +/-  0.2689E-08  (   0.144 %)
accumulated results V  2          = 0.5096E-09  +/-  0.1068E-08  ( 209.667 %)
accumulated results B  2          = 0.1872E-05  +/-  0.2689E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   205832    23880  0.3266E-06  0.1840E-06  0.9797E+00
channel    2 :     1 T   207034    24697  0.3325E-06  0.1998E-06  0.9653E+00
channel    3 :     2 T    73984     8614  0.1167E-06  0.6135E-07  0.9296E+00
channel    4 :     2 T    73026     8343  0.1180E-06  0.6758E-07  0.9898E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9380959826723858E-007  +/-   1.8089122348159280E-009
 Final result:   5.1269206129550521E-007  +/-   2.0565993712179362E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398501
   Stability unknown:                                          0
   Stable PS point:                                       398501
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398501
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398501
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.18791056    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.41754723    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.88266945    
 Time spent in Integrated_CT :    8.71569824    
 Time spent in Virtuals :    529.453613    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.92933750    
 Time spent in N1body_prefactor :   0.577332199    
 Time spent in Adding_alphas_pdf :    9.89991188    
 Time spent in Reweight_scale :    37.1525345    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8245335    
 Time spent in Applying_cuts :    4.73347425    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.1119728    
 Time spent in Other_tasks :    19.4728394    
 Time spent in Total :    678.359314    
Time in seconds: 690



LOG file for integration channel /P0_uxu_emep/all_G1_20, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32738
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          20
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  63140
  with seed                   48
 Ranmar initialization seeds       30233       12403
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439800D+04 0.439800D+04  1.00
 muF1, muF1_reference: 0.439800D+04 0.439800D+04  1.00
 muF2, muF2_reference: 0.439800D+04 0.439800D+04  1.00
 QES,  QES_reference:  0.439800D+04 0.439800D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4714717750971146E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4714717750971146E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9194106262711009E-006           OLP:   -3.9194106262711017E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0717799705445765E-006           OLP:   -8.0717799705445934E-006
  FINITE:
           OLP:   -9.0454765683116152E-005
           BORN:    1.1295580397865394E-003
  MOMENTA (Exyzm): 
           1   2198.9977232905690        0.0000000000000000        0.0000000000000000        2198.9977232905690        0.0000000000000000     
           2   2198.9977232905690       -0.0000000000000000       -0.0000000000000000       -2198.9977232905690        0.0000000000000000     
           3   2198.9977232905690       -1421.6685363758227       -1547.9820051065276        646.68483172446975        0.0000000000000000     
           4   2198.9977232905690        1421.6685363758227        1547.9820051065276       -646.68483172446975        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9194106262711009E-006           OLP:   -3.9194106262711017E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.0717799705445765E-006           OLP:   -8.0717799705445934E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0319054126739502E-006           4
ABS integral  = 0.8927E-06  +/-  0.1904E-08  (   0.213 %)
Integral      = 0.5158E-06  +/-  0.2138E-08  (   0.415 %)
Virtual       = -.5265E-11  +/-  0.1064E-08  ( ******* %)
Virtual ratio = -.1952E+00  +/-  0.4171E-03  (   0.214 %)
ABS virtual   = 0.4835E-06  +/-  0.8454E-09  (   0.175 %)
Born          = 0.1876E-05  +/-  0.2689E-08  (   0.143 %)
V  2          = -.5265E-11  +/-  0.1064E-08  ( ******* %)
B  2          = 0.1876E-05  +/-  0.2689E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8927E-06  +/-  0.1904E-08  (   0.213 %)
accumulated results Integral      = 0.5158E-06  +/-  0.2138E-08  (   0.415 %)
accumulated results Virtual       = -.5265E-11  +/-  0.1064E-08  ( ******* %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4171E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8454E-09  (   0.175 %)
accumulated results Born          = 0.1876E-05  +/-  0.2689E-08  (   0.143 %)
accumulated results V  2          = -.5265E-11  +/-  0.1064E-08  ( ******* %)
accumulated results B  2          = 0.1876E-05  +/-  0.2689E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   206164    23880  0.3256E-06  0.1861E-06  0.9929E+00
channel    2 :     1 T   207224    24697  0.3330E-06  0.1990E-06  0.8567E+00
channel    3 :     2 T    73365     8614  0.1164E-06  0.6250E-07  0.9737E+00
channel    4 :     2 T    73121     8343  0.1177E-06  0.6821E-07  0.9487E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9268100153203807E-007  +/-   1.9037866340995789E-009
 Final result:   5.1576171582573836E-007  +/-   2.1383641023829569E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399182
   Stability unknown:                                          0
   Stable PS point:                                       399182
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399182
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399182
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20202148    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.44411564    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.90180731    
 Time spent in Integrated_CT :    8.54949951    
 Time spent in Virtuals :    527.920105    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.94245815    
 Time spent in N1body_prefactor :   0.569412231    
 Time spent in Adding_alphas_pdf :    9.76145554    
 Time spent in Reweight_scale :    37.0462914    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6990614    
 Time spent in Applying_cuts :    4.69710398    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.6022644    
 Time spent in Other_tasks :    19.3677368    
 Time spent in Total :    676.703308    
Time in seconds: 687



LOG file for integration channel /P0_uxu_emep/all_G1_21, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32759
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          21
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  66297
  with seed                   48
 Ranmar initialization seeds       30233       15560
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433318D+04 0.433318D+04  1.00
 muF1, muF1_reference: 0.433318D+04 0.433318D+04  1.00
 muF2, muF2_reference: 0.433318D+04 0.433318D+04  1.00
 QES,  QES_reference:  0.433318D+04 0.433318D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4819199534868860E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4819199534868860E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0108616502152357E-006           OLP:   -4.0108616502152425E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1518296226404701E-006           OLP:   -8.1518296226404532E-006
  FINITE:
           OLP:   -9.4621323779654185E-005
           BORN:    1.1559138491652283E-003
  MOMENTA (Exyzm): 
           1   2166.5883355404280        0.0000000000000000        0.0000000000000000        2166.5883355404280        0.0000000000000000     
           2   2166.5883355404280       -0.0000000000000000       -0.0000000000000000       -2166.5883355404280        0.0000000000000000     
           3   2166.5883355404280       -1831.5131063440797       -984.83288007827741        608.08630580405907        0.0000000000000000     
           4   2166.5883355404280        1831.5131063440797        984.83288007827741       -608.08630580405907        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0108616502152357E-006           OLP:   -4.0108616502152425E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1518296226404701E-006           OLP:   -8.1518296226404532E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.3371463865041733E-006           4
ABS integral  = 0.8939E-06  +/-  0.1819E-08  (   0.203 %)
Integral      = 0.5149E-06  +/-  0.2064E-08  (   0.401 %)
Virtual       = 0.1111E-08  +/-  0.1064E-08  (  95.816 %)
Virtual ratio = -.1948E+00  +/-  0.4168E-03  (   0.214 %)
ABS virtual   = 0.4830E-06  +/-  0.8459E-09  (   0.175 %)
Born          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
V  2          = 0.1111E-08  +/-  0.1064E-08  (  95.816 %)
B  2          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8939E-06  +/-  0.1819E-08  (   0.203 %)
accumulated results Integral      = 0.5149E-06  +/-  0.2064E-08  (   0.401 %)
accumulated results Virtual       = 0.1111E-08  +/-  0.1064E-08  (  95.816 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4168E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8459E-09  (   0.175 %)
accumulated results Born          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
accumulated results V  2          = 0.1111E-08  +/-  0.1064E-08  (  95.816 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206107    23880  0.3252E-06  0.1856E-06  0.9647E+00
channel    2 :     1 T   206842    24697  0.3324E-06  0.2007E-06  0.9752E+00
channel    3 :     2 T    73642     8614  0.1167E-06  0.6135E-07  0.9585E+00
channel    4 :     2 T    73282     8343  0.1196E-06  0.6724E-07  0.9222E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9389208059690803E-007  +/-   1.8188686670426920E-009
 Final result:   5.1490198331215211E-007  +/-   2.0644437479432182E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398946
   Stability unknown:                                          0
   Stable PS point:                                       398946
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398946
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398946
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19792259    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.39172029    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.05302334    
 Time spent in Integrated_CT :    8.78479004    
 Time spent in Virtuals :    539.341614    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.07415581    
 Time spent in N1body_prefactor :   0.561707854    
 Time spent in Adding_alphas_pdf :    9.80261326    
 Time spent in Reweight_scale :    36.1229477    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8210926    
 Time spent in Applying_cuts :    4.80588245    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2330284    
 Time spent in Other_tasks :    20.0054321    
 Time spent in Total :    688.195923    
Time in seconds: 698



LOG file for integration channel /P0_uxu_emep/all_G1_22, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       32760
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          22
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  69454
  with seed                   48
 Ranmar initialization seeds       30233       18717
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431528D+04 0.431528D+04  1.00
 muF1, muF1_reference: 0.431528D+04 0.431528D+04  1.00
 muF2, muF2_reference: 0.431528D+04 0.431528D+04  1.00
 QES,  QES_reference:  0.431528D+04 0.431528D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4848370027107369E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4848370027107355E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.2174006391688805E-006           OLP:   -4.2174006391688754E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3275114876051628E-006           OLP:   -8.3275114876051933E-006
  FINITE:
           OLP:   -1.0732813576915498E-004
           BORN:    1.2154375372264434E-003
  MOMENTA (Exyzm): 
           1   2157.6408341691072        0.0000000000000000        0.0000000000000000        2157.6408341691072        0.0000000000000000     
           2   2157.6408341691072       -0.0000000000000000       -0.0000000000000000       -2157.6408341691072        0.0000000000000000     
           3   2157.6408341691072       -1920.5118214469651       -820.05802967421948        542.72750153576885        0.0000000000000000     
           4   2157.6408341691072        1920.5118214469651        820.05802967421948       -542.72750153576885        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.2174006391688805E-006           OLP:   -4.2174006391688754E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3275114876051628E-006           OLP:   -8.3275114876051933E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8987E-06  +/-  0.1915E-08  (   0.213 %)
Integral      = 0.5118E-06  +/-  0.2154E-08  (   0.421 %)
Virtual       = 0.4302E-09  +/-  0.1070E-08  ( 248.691 %)
Virtual ratio = -.1948E+00  +/-  0.4174E-03  (   0.214 %)
ABS virtual   = 0.4850E-06  +/-  0.8512E-09  (   0.176 %)
Born          = 0.1879E-05  +/-  0.2700E-08  (   0.144 %)
V  2          = 0.4302E-09  +/-  0.1070E-08  ( 248.691 %)
B  2          = 0.1879E-05  +/-  0.2700E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8987E-06  +/-  0.1915E-08  (   0.213 %)
accumulated results Integral      = 0.5118E-06  +/-  0.2154E-08  (   0.421 %)
accumulated results Virtual       = 0.4302E-09  +/-  0.1070E-08  ( 248.691 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4174E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4850E-06  +/-  0.8512E-09  (   0.176 %)
accumulated results Born          = 0.1879E-05  +/-  0.2700E-08  (   0.144 %)
accumulated results V  2          = 0.4302E-09  +/-  0.1070E-08  ( 248.691 %)
accumulated results B  2          = 0.1879E-05  +/-  0.2700E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   205866    23880  0.3291E-06  0.1843E-06  0.9521E+00
channel    2 :     1 T   206936    24697  0.3314E-06  0.1979E-06  0.9170E+00
channel    3 :     2 T    73825     8614  0.1201E-06  0.6178E-07  0.8309E+00
channel    4 :     2 T    73251     8343  0.1182E-06  0.6787E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9866031132679748E-007  +/-   1.9149203597235138E-009
 Final result:   5.1182412817139455E-007  +/-   2.1544084169710149E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399544
   Stability unknown:                                          0
   Stable PS point:                                       399544
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399544
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399544
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17986166    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.49312019    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.04550648    
 Time spent in Integrated_CT :    8.74774170    
 Time spent in Virtuals :    540.491455    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.06381035    
 Time spent in N1body_prefactor :   0.563406050    
 Time spent in Adding_alphas_pdf :    9.86707497    
 Time spent in Reweight_scale :    36.2328720    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7747984    
 Time spent in Applying_cuts :    4.78138399    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.1639862    
 Time spent in Other_tasks :    19.9101562    
 Time spent in Total :    689.315125    
Time in seconds: 701



LOG file for integration channel /P0_uxu_emep/all_G1_23, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20900
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          23
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  72611
  with seed                   48
 Ranmar initialization seeds       30233       21874
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441895D+04 0.441895D+04  1.00
 muF1, muF1_reference: 0.441895D+04 0.441895D+04  1.00
 muF2, muF2_reference: 0.441895D+04 0.441895D+04  1.00
 QES,  QES_reference:  0.441895D+04 0.441895D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4681324912532696E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.4735598759637270E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3994437942290117E-006           OLP:   -3.3994437942290109E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5961915601291980E-006           OLP:   -7.5961915601291608E-006
  FINITE:
           OLP:   -5.8090111028498469E-005
           BORN:    9.7970573505003276E-004
  MOMENTA (Exyzm): 
           1   2192.4750952203990        0.0000000000000000        0.0000000000000000        2192.4750952203990        0.0000000000000000     
           2   2192.4750952203990       -0.0000000000000000       -0.0000000000000000       -2192.4750952203990        0.0000000000000000     
           3   2192.4750952203990       -1305.0536987253276       -1554.5013416545082        829.04008672643431        0.0000000000000000     
           4   2192.4750952203990        1305.0536987253276        1554.5013416545082       -829.04008672643431        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3994437942290117E-006           OLP:   -3.3994437942290109E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5961915601291989E-006           OLP:   -7.5961915601291608E-006
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8980E-06  +/-  0.1843E-08  (   0.205 %)
Integral      = 0.5128E-06  +/-  0.2090E-08  (   0.408 %)
Virtual       = -.6449E-09  +/-  0.1067E-08  ( 165.502 %)
Virtual ratio = -.1954E+00  +/-  0.4169E-03  (   0.213 %)
ABS virtual   = 0.4839E-06  +/-  0.8491E-09  (   0.175 %)
Born          = 0.1878E-05  +/-  0.2697E-08  (   0.144 %)
V  2          = -.6449E-09  +/-  0.1067E-08  ( 165.502 %)
B  2          = 0.1878E-05  +/-  0.2697E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8980E-06  +/-  0.1843E-08  (   0.205 %)
accumulated results Integral      = 0.5128E-06  +/-  0.2090E-08  (   0.408 %)
accumulated results Virtual       = -.6449E-09  +/-  0.1067E-08  ( 165.502 %)
accumulated results Virtual ratio = -.1954E+00  +/-  0.4169E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8491E-09  (   0.175 %)
accumulated results Born          = 0.1878E-05  +/-  0.2697E-08  (   0.144 %)
accumulated results V  2          = -.6449E-09  +/-  0.1067E-08  ( 165.502 %)
accumulated results B  2          = 0.1878E-05  +/-  0.2697E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206147    23880  0.3277E-06  0.1837E-06  0.9780E+00
channel    2 :     1 T   207182    24697  0.3340E-06  0.2008E-06  0.9757E+00
channel    3 :     2 T    73501     8614  0.1176E-06  0.6212E-07  0.9428E+00
channel    4 :     2 T    73042     8343  0.1187E-06  0.6623E-07  0.8679E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9802188546967807E-007  +/-   1.8431122981296954E-009
 Final result:   5.1284178937505344E-007  +/-   2.0899060542377628E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399173
   Stability unknown:                                          0
   Stable PS point:                                       399173
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399173
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399173
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.97749972    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.06247520    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.52718306    
 Time spent in Integrated_CT :    12.9522705    
 Time spent in Virtuals :    799.494019    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.2980661    
 Time spent in N1body_prefactor :    1.06195986    
 Time spent in Adding_alphas_pdf :    14.7542973    
 Time spent in Reweight_scale :    62.2822113    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.8138981    
 Time spent in Applying_cuts :    7.60434437    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    71.1430130    
 Time spent in Other_tasks :    33.7185669    
 Time spent in Total :    1055.68982    
Time in seconds: 1059



LOG file for integration channel /P0_uxu_emep/all_G1_24, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20898
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          24
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  75768
  with seed                   48
 Ranmar initialization seeds       30233       25031
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436980D+04 0.436980D+04  1.00
 muF1, muF1_reference: 0.436980D+04 0.436980D+04  1.00
 muF2, muF2_reference: 0.436980D+04 0.436980D+04  1.00
 QES,  QES_reference:  0.436980D+04 0.436980D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4759945749873866E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4759945749873866E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1733912346492252E-006           OLP:   -4.1733912346492244E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2906853125414838E-006           OLP:   -8.2906853125415075E-006
  FINITE:
           OLP:   -1.0597844590333155E-004
           BORN:    1.2027542076543415E-003
  MOMENTA (Exyzm): 
           1   2184.8986065422937        0.0000000000000000        0.0000000000000000        2184.8986065422937        0.0000000000000000     
           2   2184.8986065422937       -0.0000000000000000       -0.0000000000000000       -2184.8986065422937        0.0000000000000000     
           3   2184.8986065422937       -2104.0477035637859       -173.06126201955740        562.86319970896511        0.0000000000000000     
           4   2184.8986065422937        2104.0477035637859        173.06126201955740       -562.86319970896511        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1733912346492252E-006           OLP:   -4.1733912346492244E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.2906853125414838E-006           OLP:   -8.2906853125415075E-006
 REAL 3: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8957E-06  +/-  0.1907E-08  (   0.213 %)
Integral      = 0.5168E-06  +/-  0.2143E-08  (   0.415 %)
Virtual       = 0.2626E-08  +/-  0.1064E-08  (  40.519 %)
Virtual ratio = -.1943E+00  +/-  0.4174E-03  (   0.215 %)
ABS virtual   = 0.4832E-06  +/-  0.8457E-09  (   0.175 %)
Born          = 0.1873E-05  +/-  0.2683E-08  (   0.143 %)
V  2          = 0.2626E-08  +/-  0.1064E-08  (  40.519 %)
B  2          = 0.1873E-05  +/-  0.2683E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8957E-06  +/-  0.1907E-08  (   0.213 %)
accumulated results Integral      = 0.5168E-06  +/-  0.2143E-08  (   0.415 %)
accumulated results Virtual       = 0.2626E-08  +/-  0.1064E-08  (  40.519 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4174E-03  (   0.215 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8457E-09  (   0.175 %)
accumulated results Born          = 0.1873E-05  +/-  0.2683E-08  (   0.143 %)
accumulated results V  2          = 0.2626E-08  +/-  0.1064E-08  (  40.519 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2683E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205709    23880  0.3270E-06  0.1868E-06  0.8649E+00
channel    2 :     1 T   207364    24697  0.3329E-06  0.2003E-06  0.9591E+00
channel    3 :     2 T    73792     8614  0.1184E-06  0.6305E-07  0.9617E+00
channel    4 :     2 T    73005     8343  0.1174E-06  0.6667E-07  0.9746E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9567896540665151E-007  +/-   1.9072583227223005E-009
 Final result:   5.1680793902961679E-007  +/-   2.1432401724660672E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398906
   Stability unknown:                                          0
   Stable PS point:                                       398906
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398906
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398906
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.04340649    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.09424210    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.53884315    
 Time spent in Integrated_CT :    13.0723267    
 Time spent in Virtuals :    796.606201    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.2619820    
 Time spent in N1body_prefactor :    1.07944751    
 Time spent in Adding_alphas_pdf :    14.8019838    
 Time spent in Reweight_scale :    62.2017365    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.6373196    
 Time spent in Applying_cuts :    7.50895548    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    69.6321106    
 Time spent in Other_tasks :    34.0124512    
 Time spent in Total :    1051.49109    
Time in seconds: 1056



LOG file for integration channel /P0_uxu_emep/all_G1_25, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20875
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          25
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  78925
  with seed                   48
 Ranmar initialization seeds       30233       28188
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429952D+04 0.429952D+04  1.00
 muF1, muF1_reference: 0.429952D+04 0.429952D+04  1.00
 muF2, muF2_reference: 0.429952D+04 0.429952D+04  1.00
 QES,  QES_reference:  0.429952D+04 0.429952D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4874183326865323E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4874183326865323E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8919448750054864E-006           OLP:   -3.8919448750054856E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0474993510464957E-006           OLP:   -8.0474993510465380E-006
  FINITE:
           OLP:   -8.6297509334039236E-005
           BORN:    1.1216425231134707E-003
  MOMENTA (Exyzm): 
           1   2149.7594800823122        0.0000000000000000        0.0000000000000000        2149.7594800823122        0.0000000000000000     
           2   2149.7594800823122       -0.0000000000000000       -0.0000000000000000       -2149.7594800823122        0.0000000000000000     
           3   2149.7594800823122       -1895.8231243000209       -785.12293298623592        641.01675771556108        0.0000000000000000     
           4   2149.7594800823122        1895.8231243000209        785.12293298623592       -641.01675771556108        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8919448750054864E-006           OLP:   -3.8919448750054856E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.0474993510464940E-006           OLP:   -8.0474993510465380E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8987E-06  +/-  0.3133E-08  (   0.349 %)
Integral      = 0.5127E-06  +/-  0.3285E-08  (   0.641 %)
Virtual       = 0.8598E-09  +/-  0.1070E-08  ( 124.477 %)
Virtual ratio = -.1947E+00  +/-  0.4172E-03  (   0.214 %)
ABS virtual   = 0.4845E-06  +/-  0.8521E-09  (   0.176 %)
Born          = 0.1877E-05  +/-  0.2699E-08  (   0.144 %)
V  2          = 0.8598E-09  +/-  0.1070E-08  ( 124.477 %)
B  2          = 0.1877E-05  +/-  0.2699E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8987E-06  +/-  0.3133E-08  (   0.349 %)
accumulated results Integral      = 0.5127E-06  +/-  0.3285E-08  (   0.641 %)
accumulated results Virtual       = 0.8598E-09  +/-  0.1070E-08  ( 124.477 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4172E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4845E-06  +/-  0.8521E-09  (   0.176 %)
accumulated results Born          = 0.1877E-05  +/-  0.2699E-08  (   0.144 %)
accumulated results V  2          = 0.8598E-09  +/-  0.1070E-08  ( 124.477 %)
accumulated results B  2          = 0.1877E-05  +/-  0.2699E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   205794    23880  0.3247E-06  0.1829E-06  0.1000E+01
channel    2 :     1 T   206547    24697  0.3370E-06  0.1980E-06  0.4206E+00
channel    3 :     2 T    73811     8614  0.1178E-06  0.6226E-07  0.9724E+00
channel    4 :     2 T    73720     8343  0.1192E-06  0.6949E-07  0.9888E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9873169699592997E-007  +/-   3.1334334277731754E-009
 Final result:   5.1273141620604660E-007  +/-   3.2850463531944963E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399154
   Stability unknown:                                          0
   Stable PS point:                                       399154
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399154
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399154
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.03565121    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.14583778    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.54847431    
 Time spent in Integrated_CT :    13.0360718    
 Time spent in Virtuals :    805.075439    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.2710562    
 Time spent in N1body_prefactor :    1.11179137    
 Time spent in Adding_alphas_pdf :    14.8983240    
 Time spent in Reweight_scale :    63.3785095    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.9112968    
 Time spent in Applying_cuts :    7.65014362    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    69.3804016    
 Time spent in Other_tasks :    34.1907959    
 Time spent in Total :    1061.63391    
Time in seconds: 1074



LOG file for integration channel /P0_uxu_emep/all_G1_26, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20871
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          26
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  82082
  with seed                   48
 Ranmar initialization seeds       30233        1264
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430573D+04 0.430573D+04  1.00
 muF1, muF1_reference: 0.430573D+04 0.430573D+04  1.00
 muF2, muF2_reference: 0.430573D+04 0.430573D+04  1.00
 QES,  QES_reference:  0.430573D+04 0.430573D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4863991229889099E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4863991229889099E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0541274149318061E-006           OLP:   -4.0541274149318044E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1892342800629864E-006           OLP:   -8.1892342800628085E-006
  FINITE:
           OLP:   -9.6651530379737206E-005
           BORN:    1.1683828648012885E-003
  MOMENTA (Exyzm): 
           1   2152.8672748309391        0.0000000000000000        0.0000000000000000        2152.8672748309391        0.0000000000000000     
           2   2152.8672748309391       -0.0000000000000000       -0.0000000000000000       -2152.8672748309391        0.0000000000000000     
           3   2152.8672748309391       -1747.5262715507329       -1109.9192461603557        590.82036210748356        0.0000000000000000     
           4   2152.8672748309391        1747.5262715507329        1109.9192461603557       -590.82036210748356        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0541274149318061E-006           OLP:   -4.0541274149318044E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.1892342800629864E-006           OLP:   -8.1892342800628085E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.8954E-06  +/-  0.1787E-08  (   0.200 %)
Integral      = 0.5176E-06  +/-  0.2036E-08  (   0.393 %)
Virtual       = 0.2219E-08  +/-  0.1067E-08  (  48.099 %)
Virtual ratio = -.1946E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4847E-06  +/-  0.8482E-09  (   0.175 %)
Born          = 0.1878E-05  +/-  0.2691E-08  (   0.143 %)
V  2          = 0.2219E-08  +/-  0.1067E-08  (  48.099 %)
B  2          = 0.1878E-05  +/-  0.2691E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8954E-06  +/-  0.1787E-08  (   0.200 %)
accumulated results Integral      = 0.5176E-06  +/-  0.2036E-08  (   0.393 %)
accumulated results Virtual       = 0.2219E-08  +/-  0.1067E-08  (  48.099 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4847E-06  +/-  0.8482E-09  (   0.175 %)
accumulated results Born          = 0.1878E-05  +/-  0.2691E-08  (   0.143 %)
accumulated results V  2          = 0.2219E-08  +/-  0.1067E-08  (  48.099 %)
accumulated results B  2          = 0.1878E-05  +/-  0.2691E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205960    23880  0.3265E-06  0.1863E-06  0.1000E+01
channel    2 :     1 T   206881    24697  0.3329E-06  0.1993E-06  0.9703E+00
channel    3 :     2 T    73738     8614  0.1175E-06  0.6247E-07  0.8915E+00
channel    4 :     2 T    73291     8343  0.1184E-06  0.6946E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9538742260769272E-007  +/-   1.7870985188616965E-009
 Final result:   5.1758515267074057E-007  +/-   2.0364667038908081E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399520
   Stability unknown:                                          0
   Stable PS point:                                       399520
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399520
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399520
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.02774477    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.80890846    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.56518459    
 Time spent in Integrated_CT :    12.8689575    
 Time spent in Virtuals :    793.222046    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.8705597    
 Time spent in N1body_prefactor :    1.06357741    
 Time spent in Adding_alphas_pdf :    14.3886833    
 Time spent in Reweight_scale :    60.1196899    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.2252388    
 Time spent in Applying_cuts :    7.72150183    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    66.4866638    
 Time spent in Other_tasks :    34.1942139    
 Time spent in Total :    1042.56299    
Time in seconds: 1055



LOG file for integration channel /P0_uxu_emep/all_G1_27, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20869
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          27
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  85239
  with seed                   48
 Ranmar initialization seeds       30233        4421
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442057D+04 0.442057D+04  1.00
 muF1, muF1_reference: 0.442057D+04 0.442057D+04  1.00
 muF2, muF2_reference: 0.442057D+04 0.442057D+04  1.00
 QES,  QES_reference:  0.442057D+04 0.442057D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4678755442528028E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4678755442528041E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8593744736742644E-006           OLP:   -3.8593744736742703E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0185347804463668E-006           OLP:   -8.0185347804464905E-006
  FINITE:
           OLP:   -8.7202481805331671E-005
           BORN:    1.1122558672636961E-003
  MOMENTA (Exyzm): 
           1   2210.2854783963253        0.0000000000000000        0.0000000000000000        2210.2854783963253        0.0000000000000000     
           2   2210.2854783963253       -0.0000000000000000       -0.0000000000000000       -2210.2854783963253        0.0000000000000000     
           3   2210.2854783963253       -1527.0870757554126       -1450.7265603176884        669.89507108148109        0.0000000000000000     
           4   2210.2854783963253        1527.0870757554126        1450.7265603176884       -669.89507108148109        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8593744736742644E-006           OLP:   -3.8593744736742703E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0185347804463668E-006           OLP:   -8.0185347804464905E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8935E-06  +/-  0.1843E-08  (   0.206 %)
Integral      = 0.5101E-06  +/-  0.2088E-08  (   0.409 %)
Virtual       = -.1394E-08  +/-  0.1056E-08  (  75.780 %)
Virtual ratio = -.1957E+00  +/-  0.4171E-03  (   0.213 %)
ABS virtual   = 0.4818E-06  +/-  0.8376E-09  (   0.174 %)
Born          = 0.1870E-05  +/-  0.2664E-08  (   0.142 %)
V  2          = -.1394E-08  +/-  0.1056E-08  (  75.780 %)
B  2          = 0.1870E-05  +/-  0.2664E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8935E-06  +/-  0.1843E-08  (   0.206 %)
accumulated results Integral      = 0.5101E-06  +/-  0.2088E-08  (   0.409 %)
accumulated results Virtual       = -.1394E-08  +/-  0.1056E-08  (  75.780 %)
accumulated results Virtual ratio = -.1957E+00  +/-  0.4171E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4818E-06  +/-  0.8376E-09  (   0.174 %)
accumulated results Born          = 0.1870E-05  +/-  0.2664E-08  (   0.142 %)
accumulated results V  2          = -.1394E-08  +/-  0.1056E-08  (  75.780 %)
accumulated results B  2          = 0.1870E-05  +/-  0.2664E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206288    23880  0.3272E-06  0.1847E-06  0.1000E+01
channel    2 :     1 T   206498    24697  0.3303E-06  0.1982E-06  0.9612E+00
channel    3 :     2 T    73829     8614  0.1174E-06  0.6113E-07  0.9008E+00
channel    4 :     2 T    73259     8343  0.1186E-06  0.6601E-07  0.8419E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9349334918554957E-007  +/-   1.8434214522673220E-009
 Final result:   5.1007347239463192E-007  +/-   2.0879210171045564E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399169
   Stability unknown:                                          0
   Stable PS point:                                       399169
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399169
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399169
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.00809264    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.81730938    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.59792852    
 Time spent in Integrated_CT :    12.9622803    
 Time spent in Virtuals :    795.162354    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.0352345    
 Time spent in N1body_prefactor :    1.07151663    
 Time spent in Adding_alphas_pdf :    14.4680367    
 Time spent in Reweight_scale :    60.6182060    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.3837090    
 Time spent in Applying_cuts :    7.77691078    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    66.8599091    
 Time spent in Other_tasks :    34.5364380    
 Time spent in Total :    1046.29797    
Time in seconds: 1059



LOG file for integration channel /P0_uxu_emep/all_G1_28, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20870
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          28
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  88396
  with seed                   48
 Ranmar initialization seeds       30233        7578
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439639D+04 0.439639D+04  1.00
 muF1, muF1_reference: 0.439639D+04 0.439639D+04  1.00
 muF2, muF2_reference: 0.439639D+04 0.439639D+04  1.00
 QES,  QES_reference:  0.439639D+04 0.439639D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4717277537414903E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4717277537414903E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5863668808810966E-006           OLP:   -3.5863668808810966E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7703539761175793E-006           OLP:   -7.7703539761178351E-006
  FINITE:
           OLP:   -6.9647279339423140E-005
           BORN:    1.0335762006589031E-003
  MOMENTA (Exyzm): 
           1   2198.1968891112097        0.0000000000000000        0.0000000000000000        2198.1968891112097        0.0000000000000000     
           2   2198.1968891112097       -0.0000000000000000       -0.0000000000000000       -2198.1968891112097        0.0000000000000000     
           3   2198.1968891112097       -1609.8911458418686       -1288.8942937607967        760.96751661881876        0.0000000000000000     
           4   2198.1968891112097        1609.8911458418686        1288.8942937607967       -760.96751661881876        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5863668808810966E-006           OLP:   -3.5863668808810966E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7703539761175793E-006           OLP:   -7.7703539761178351E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8950E-06  +/-  0.1928E-08  (   0.215 %)
Integral      = 0.5131E-06  +/-  0.2162E-08  (   0.421 %)
Virtual       = -.4102E-09  +/-  0.1066E-08  ( 259.847 %)
Virtual ratio = -.1948E+00  +/-  0.4170E-03  (   0.214 %)
ABS virtual   = 0.4835E-06  +/-  0.8476E-09  (   0.175 %)
Born          = 0.1875E-05  +/-  0.2697E-08  (   0.144 %)
V  2          = -.4102E-09  +/-  0.1066E-08  ( 259.847 %)
B  2          = 0.1875E-05  +/-  0.2697E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8950E-06  +/-  0.1928E-08  (   0.215 %)
accumulated results Integral      = 0.5131E-06  +/-  0.2162E-08  (   0.421 %)
accumulated results Virtual       = -.4102E-09  +/-  0.1066E-08  ( 259.847 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4170E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8476E-09  (   0.175 %)
accumulated results Born          = 0.1875E-05  +/-  0.2697E-08  (   0.144 %)
accumulated results V  2          = -.4102E-09  +/-  0.1066E-08  ( 259.847 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2697E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206283    23880  0.3263E-06  0.1844E-06  0.9976E+00
channel    2 :     1 T   206658    24697  0.3327E-06  0.1994E-06  0.8535E+00
channel    3 :     2 T    73907     8614  0.1184E-06  0.6200E-07  0.8893E+00
channel    4 :     2 T    73027     8343  0.1177E-06  0.6733E-07  0.9687E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9504732400834141E-007  +/-   1.9275370894899396E-009
 Final result:   5.1306077804569365E-007  +/-   2.1624328608642940E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399279
   Stability unknown:                                          0
   Stable PS point:                                       399279
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399279
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399279
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.06239939    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.84728432    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.71248102    
 Time spent in Integrated_CT :    13.1629028    
 Time spent in Virtuals :    798.380676    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9667931    
 Time spent in N1body_prefactor :    1.08411288    
 Time spent in Adding_alphas_pdf :    14.4943943    
 Time spent in Reweight_scale :    60.6493988    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.6724224    
 Time spent in Applying_cuts :    8.20799255    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    66.6989288    
 Time spent in Other_tasks :    35.5574951    
 Time spent in Total :    1051.49731    
Time in seconds: 1065



LOG file for integration channel /P0_uxu_emep/all_G1_29, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20864
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          29
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  91553
  with seed                   48
 Ranmar initialization seeds       30233       10735
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427633D+04 0.427633D+04  1.00
 muF1, muF1_reference: 0.427633D+04 0.427633D+04  1.00
 muF2, muF2_reference: 0.427633D+04 0.427633D+04  1.00
 QES,  QES_reference:  0.427633D+04 0.427633D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4912359760398201E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.4723458056843578E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.2895403138831649E-006           OLP:   -3.2895403138831568E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.4930965553034824E-006           OLP:   -7.4930965553034570E-006
  FINITE:
           OLP:   -5.1713912046889466E-005
           BORN:    9.4803200354737541E-004
  MOMENTA (Exyzm): 
           1   2196.2647197588544        0.0000000000000000        0.0000000000000000        2196.2647197588544        0.0000000000000000     
           2   2196.2647197588544       -0.0000000000000000       -0.0000000000000000       -2196.2647197588544        0.0000000000000000     
           3   2196.2647197588544       -1760.7978446618133       -979.22201593301281        874.23904797477383        0.0000000000000000     
           4   2196.2647197588544        1760.7978446618133        979.22201593301281       -874.23904797477383        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.2895403138831649E-006           OLP:   -3.2895403138831568E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.4930965553034824E-006           OLP:   -7.4930965553034570E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8976E-06  +/-  0.1764E-08  (   0.197 %)
Integral      = 0.5172E-06  +/-  0.2018E-08  (   0.390 %)
Virtual       = 0.1366E-08  +/-  0.1067E-08  (  78.098 %)
Virtual ratio = -.1949E+00  +/-  0.4172E-03  (   0.214 %)
ABS virtual   = 0.4843E-06  +/-  0.8482E-09  (   0.175 %)
Born          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
V  2          = 0.1366E-08  +/-  0.1067E-08  (  78.098 %)
B  2          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8976E-06  +/-  0.1764E-08  (   0.197 %)
accumulated results Integral      = 0.5172E-06  +/-  0.2018E-08  (   0.390 %)
accumulated results Virtual       = 0.1366E-08  +/-  0.1067E-08  (  78.098 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4172E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8482E-09  (   0.175 %)
accumulated results Born          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
accumulated results V  2          = 0.1366E-08  +/-  0.1067E-08  (  78.098 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205981    23880  0.3283E-06  0.1847E-06  0.1000E+01
channel    2 :     1 T   207357    24697  0.3334E-06  0.2018E-06  0.9662E+00
channel    3 :     2 T    73284     8614  0.1181E-06  0.6296E-07  0.9750E+00
channel    4 :     2 T    73251     8343  0.1178E-06  0.6775E-07  0.9885E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9760686186214465E-007  +/-   1.7639566285929844E-009
 Final result:   5.1719313261408880E-007  +/-   2.0181305274552120E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399321
   Stability unknown:                                          0
   Stable PS point:                                       399321
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399321
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399321
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.06938672    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.80564308    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.63454628    
 Time spent in Integrated_CT :    13.0983276    
 Time spent in Virtuals :    795.893555    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.0199909    
 Time spent in N1body_prefactor :    1.13749671    
 Time spent in Adding_alphas_pdf :    14.6351233    
 Time spent in Reweight_scale :    60.8816643    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.8936386    
 Time spent in Applying_cuts :    8.01208115    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    67.9604645    
 Time spent in Other_tasks :    35.0132446    
 Time spent in Total :    1050.05518    
Time in seconds: 1063



LOG file for integration channel /P0_uxu_emep/all_G1_30, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20878
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          30
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  94710
  with seed                   48
 Ranmar initialization seeds       30233       13892
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436416D+04 0.436416D+04  1.00
 muF1, muF1_reference: 0.436416D+04 0.436416D+04  1.00
 muF2, muF2_reference: 0.436416D+04 0.436416D+04  1.00
 QES,  QES_reference:  0.436416D+04 0.436416D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4769034219892450E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4769034219892450E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0224738919870512E-006           OLP:   -4.0224738919870444E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1618931164893730E-006           OLP:   -8.1618931164894205E-006
  FINITE:
           OLP:   -9.6153464010331053E-005
           BORN:    1.1592604495355443E-003
  MOMENTA (Exyzm): 
           1   2182.0783093979517        0.0000000000000000        0.0000000000000000        2182.0783093979517        0.0000000000000000     
           2   2182.0783093979517       -0.0000000000000000       -0.0000000000000000       -2182.0783093979517        0.0000000000000000     
           3   2182.0783093979517       -2057.6863111684056       -395.97355778077588        608.76738966013716        0.0000000000000000     
           4   2182.0783093979517        2057.6863111684056        395.97355778077588       -608.76738966013716        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0224738919870512E-006           OLP:   -4.0224738919870444E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1618931164893730E-006           OLP:   -8.1618931164894205E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8974E-06  +/-  0.1848E-08  (   0.206 %)
Integral      = 0.5154E-06  +/-  0.2093E-08  (   0.406 %)
Virtual       = -.1312E-09  +/-  0.1064E-08  ( 810.663 %)
Virtual ratio = -.1950E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4839E-06  +/-  0.8446E-09  (   0.175 %)
Born          = 0.1876E-05  +/-  0.2685E-08  (   0.143 %)
V  2          = -.1312E-09  +/-  0.1064E-08  ( 810.663 %)
B  2          = 0.1876E-05  +/-  0.2685E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8974E-06  +/-  0.1848E-08  (   0.206 %)
accumulated results Integral      = 0.5154E-06  +/-  0.2093E-08  (   0.406 %)
accumulated results Virtual       = -.1312E-09  +/-  0.1064E-08  ( 810.663 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8446E-09  (   0.175 %)
accumulated results Born          = 0.1876E-05  +/-  0.2685E-08  (   0.143 %)
accumulated results V  2          = -.1312E-09  +/-  0.1064E-08  ( 810.663 %)
accumulated results B  2          = 0.1876E-05  +/-  0.2685E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206070    23880  0.3285E-06  0.1845E-06  0.9355E+00
channel    2 :     1 T   206599    24697  0.3312E-06  0.1996E-06  0.9562E+00
channel    3 :     2 T    73887     8614  0.1186E-06  0.6224E-07  0.9466E+00
channel    4 :     2 T    73316     8343  0.1191E-06  0.6895E-07  0.9575E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9739345535536479E-007  +/-   1.8483368781826896E-009
 Final result:   5.1536081163312918E-007  +/-   2.0929290823348151E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399430
   Stability unknown:                                          0
   Stable PS point:                                       399430
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399430
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399430
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.00686717    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.77992725    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.55093813    
 Time spent in Integrated_CT :    12.8232422    
 Time spent in Virtuals :    793.492188    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.0769405    
 Time spent in N1body_prefactor :    1.06309736    
 Time spent in Adding_alphas_pdf :    14.6859016    
 Time spent in Reweight_scale :    60.3998566    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.4000702    
 Time spent in Applying_cuts :    7.77000999    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    67.8635941    
 Time spent in Other_tasks :    34.5232544    
 Time spent in Total :    1045.43591    
Time in seconds: 1058



LOG file for integration channel /P0_uxu_emep/all_G1_31, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20877
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          31
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 ,  97867
  with seed                   48
 Ranmar initialization seeds       30233       17049
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436727D+04 0.436727D+04  1.00
 muF1, muF1_reference: 0.436727D+04 0.436727D+04  1.00
 muF2, muF2_reference: 0.436727D+04 0.436727D+04  1.00
 QES,  QES_reference:  0.436727D+04 0.436727D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4764021461352567E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4764021461352567E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3917527304939182E-006           OLP:   -3.3917527304939173E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5889826458124496E-006           OLP:   -7.5889826458124174E-006
  FINITE:
           OLP:   -5.7273996906026729E-005
           BORN:    9.7748920207993396E-004
  MOMENTA (Exyzm): 
           1   2183.6333164151620        0.0000000000000000        0.0000000000000000        2183.6333164151620        0.0000000000000000     
           2   2183.6333164151620       -0.0000000000000000       -0.0000000000000000       -2183.6333164151620        0.0000000000000000     
           3   2183.6333164151620       -1291.6672371471047       -1553.4300855435972        828.67676350134013        0.0000000000000000     
           4   2183.6333164151620        1291.6672371471047        1553.4300855435972       -828.67676350134013        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3917527304939182E-006           OLP:   -3.3917527304939173E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5889826458124496E-006           OLP:   -7.5889826458124174E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.9115E-06  +/-  0.1427E-07  (   1.565 %)
Integral      = 0.5273E-06  +/-  0.1430E-07  (   2.712 %)
Virtual       = 0.7670E-09  +/-  0.1071E-08  ( 139.695 %)
Virtual ratio = -.1946E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4843E-06  +/-  0.8538E-09  (   0.176 %)
Born          = 0.1876E-05  +/-  0.2699E-08  (   0.144 %)
V  2          = 0.7670E-09  +/-  0.1071E-08  ( 139.695 %)
B  2          = 0.1876E-05  +/-  0.2699E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9115E-06  +/-  0.1427E-07  (   1.565 %)
accumulated results Integral      = 0.5273E-06  +/-  0.1430E-07  (   2.712 %)
accumulated results Virtual       = 0.7670E-09  +/-  0.1071E-08  ( 139.695 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8538E-09  (   0.176 %)
accumulated results Born          = 0.1876E-05  +/-  0.2699E-08  (   0.144 %)
accumulated results V  2          = 0.7670E-09  +/-  0.1071E-08  ( 139.695 %)
accumulated results B  2          = 0.1876E-05  +/-  0.2699E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                    1                                                              2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205934    23880  0.3286E-06  0.1845E-06  0.9698E+00
channel    2 :     1 T   206718    24697  0.3323E-06  0.1988E-06  0.9781E+00
channel    3 :     2 T    73822     8614  0.1311E-06  0.7696E-07  0.2278E+00
channel    4 :     2 T    73401     8343  0.1194E-06  0.6705E-07  0.9592E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1151958239821874E-007  +/-   1.4265320199834852E-008
 Final result:   5.2731512300792720E-007  +/-   1.4299886046061136E-008
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398917
   Stability unknown:                                          0
   Stable PS point:                                       398917
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398917
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398917
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.99830830    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.80668545    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.59487629    
 Time spent in Integrated_CT :    12.8954468    
 Time spent in Virtuals :    798.880127    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9037399    
 Time spent in N1body_prefactor :    1.05544078    
 Time spent in Adding_alphas_pdf :    14.3497171    
 Time spent in Reweight_scale :    60.8772240    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.3741035    
 Time spent in Applying_cuts :    7.83086729    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    66.5639343    
 Time spent in Other_tasks :    34.4194336    
 Time spent in Total :    1049.54980    
Time in seconds: 1062



LOG file for integration channel /P0_uxu_emep/all_G1_32, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20861
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          32
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 101024
  with seed                   48
 Ranmar initialization seeds       30233       20206
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436432D+04 0.436432D+04  1.00
 muF1, muF1_reference: 0.436432D+04 0.436432D+04  1.00
 muF2, muF2_reference: 0.436432D+04 0.436432D+04  1.00
 QES,  QES_reference:  0.436432D+04 0.436432D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4768767921193524E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4768767921193510E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
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 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6316065630259551E-006           OLP:   -3.6316065630259525E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8120824366529450E-006           OLP:   -7.8120824366529552E-006
  FINITE:
           OLP:   -7.1714283657632442E-005
           BORN:    1.0466140911880538E-003
  MOMENTA (Exyzm): 
           1   2182.1608849865438        0.0000000000000000        0.0000000000000000        2182.1608849865438        0.0000000000000000     
           2   2182.1608849865438       -0.0000000000000000       -0.0000000000000000       -2182.1608849865438        0.0000000000000000     
           3   2182.1608849865438       -2035.6352031904366       -267.45734126556562        739.24422087713469        0.0000000000000000     
           4   2182.1608849865438        2035.6352031904366        267.45734126556562       -739.24422087713469        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6316065630259551E-006           OLP:   -3.6316065630259525E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8120824366529450E-006           OLP:   -7.8120824366529552E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8955E-06  +/-  0.1802E-08  (   0.201 %)
Integral      = 0.5125E-06  +/-  0.2052E-08  (   0.400 %)
Virtual       = 0.5854E-09  +/-  0.1068E-08  ( 182.495 %)
Virtual ratio = -.1948E+00  +/-  0.4170E-03  (   0.214 %)
ABS virtual   = 0.4839E-06  +/-  0.8503E-09  (   0.176 %)
Born          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
V  2          = 0.5854E-09  +/-  0.1068E-08  ( 182.495 %)
B  2          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8955E-06  +/-  0.1802E-08  (   0.201 %)
accumulated results Integral      = 0.5125E-06  +/-  0.2052E-08  (   0.400 %)
accumulated results Virtual       = 0.5854E-09  +/-  0.1068E-08  ( 182.495 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4170E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8503E-09  (   0.176 %)
accumulated results Born          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
accumulated results V  2          = 0.5854E-09  +/-  0.1068E-08  ( 182.495 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206397    23880  0.3284E-06  0.1857E-06  0.9816E+00
channel    2 :     1 T   206811    24697  0.3318E-06  0.1972E-06  0.9545E+00
channel    3 :     2 T    73352     8614  0.1162E-06  0.6088E-07  0.9724E+00
channel    4 :     2 T    73313     8343  0.1191E-06  0.6873E-07  0.9887E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9550860039983450E-007  +/-   1.8016072511862664E-009
 Final result:   5.1249307452083901E-007  +/-   2.0515897410130965E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399317
   Stability unknown:                                          0
   Stable PS point:                                       399317
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399317
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399317
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.04865909    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.80916214    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.58168030    
 Time spent in Integrated_CT :    13.0222778    
 Time spent in Virtuals :    794.057861    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.0034389    
 Time spent in N1body_prefactor :    1.06125331    
 Time spent in Adding_alphas_pdf :    14.4885778    
 Time spent in Reweight_scale :    60.1172485    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.5082455    
 Time spent in Applying_cuts :    7.85618734    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    66.8126373    
 Time spent in Other_tasks :    34.7273560    
 Time spent in Total :    1045.09460    
Time in seconds: 1058



LOG file for integration channel /P0_uxu_emep/all_G1_33, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20874
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          33
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 104181
  with seed                   48
 Ranmar initialization seeds       30233       23363
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441165D+04 0.441165D+04  1.00
 muF1, muF1_reference: 0.441165D+04 0.441165D+04  1.00
 muF2, muF2_reference: 0.441165D+04 0.441165D+04  1.00
 QES,  QES_reference:  0.441165D+04 0.441165D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4692947428091794E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4692947428091794E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8318183857928046E-006           OLP:   -3.8318183857927961E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9939212841261659E-006           OLP:   -7.9939212841261015E-006
  FINITE:
           OLP:   -8.5249725336953921E-005
           BORN:    1.1043143159490841E-003
  MOMENTA (Exyzm): 
           1   2205.8226565128816        0.0000000000000000        0.0000000000000000        2205.8226565128816        0.0000000000000000     
           2   2205.8226565128816       -0.0000000000000000       -0.0000000000000000       -2205.8226565128816        0.0000000000000000     
           3   2205.8226565128816       -982.77340195046111       -1854.8409936040762        677.77202719653974        0.0000000000000000     
           4   2205.8226565128816        982.77340195046111        1854.8409936040762       -677.77202719653974        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8318183857928046E-006           OLP:   -3.8318183857927961E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.9939212841261642E-006           OLP:   -7.9939212841261015E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8955E-06  +/-  0.1798E-08  (   0.201 %)
Integral      = 0.5106E-06  +/-  0.2049E-08  (   0.401 %)
Virtual       = -.2434E-08  +/-  0.1065E-08  (  43.779 %)
Virtual ratio = -.1956E+00  +/-  0.4163E-03  (   0.213 %)
ABS virtual   = 0.4839E-06  +/-  0.8468E-09  (   0.175 %)
Born          = 0.1879E-05  +/-  0.2696E-08  (   0.144 %)
V  2          = -.2434E-08  +/-  0.1065E-08  (  43.779 %)
B  2          = 0.1879E-05  +/-  0.2696E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8955E-06  +/-  0.1798E-08  (   0.201 %)
accumulated results Integral      = 0.5106E-06  +/-  0.2049E-08  (   0.401 %)
accumulated results Virtual       = -.2434E-08  +/-  0.1065E-08  (  43.779 %)
accumulated results Virtual ratio = -.1956E+00  +/-  0.4163E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8468E-09  (   0.175 %)
accumulated results Born          = 0.1879E-05  +/-  0.2696E-08  (   0.144 %)
accumulated results V  2          = -.2434E-08  +/-  0.1065E-08  (  43.779 %)
accumulated results B  2          = 0.1879E-05  +/-  0.2696E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206144    23880  0.3283E-06  0.1838E-06  0.9713E+00
channel    2 :     1 T   206736    24697  0.3302E-06  0.1984E-06  0.9709E+00
channel    3 :     2 T    73458     8614  0.1178E-06  0.6186E-07  0.9598E+00
channel    4 :     2 T    73529     8343  0.1192E-06  0.6657E-07  0.9745E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9549061181261607E-007  +/-   1.7981794523181593E-009
 Final result:   5.1063471429199085E-007  +/-   2.0493949356768677E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399667
   Stability unknown:                                          0
   Stable PS point:                                       399667
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399667
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399667
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.02707028    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.84804344    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.65495348    
 Time spent in Integrated_CT :    13.0465088    
 Time spent in Virtuals :    796.172607    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9403820    
 Time spent in N1body_prefactor :    1.06651449    
 Time spent in Adding_alphas_pdf :    14.4769382    
 Time spent in Reweight_scale :    60.4418030    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.3192787    
 Time spent in Applying_cuts :    7.93971443    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    67.0081253    
 Time spent in Other_tasks :    34.8309326    
 Time spent in Total :    1047.77283    
Time in seconds: 1061



LOG file for integration channel /P0_uxu_emep/all_G1_34, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20873
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          34
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 107338
  with seed                   48
 Ranmar initialization seeds       30233       26520
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422895D+04 0.422895D+04  1.00
 muF1, muF1_reference: 0.422895D+04 0.422895D+04  1.00
 muF2, muF2_reference: 0.422895D+04 0.422895D+04  1.00
 QES,  QES_reference:  0.422895D+04 0.422895D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4991136959708229E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4991136959708229E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1849647152229592E-006           OLP:   -4.1849647152229583E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3004286109475745E-006           OLP:   -8.3004286109475575E-006
  FINITE:
           OLP:   -1.0287729485519794E-004
           BORN:    1.2060896372066189E-003
  MOMENTA (Exyzm): 
           1   2114.4746712301862        0.0000000000000000        0.0000000000000000        2114.4746712301862        0.0000000000000000     
           2   2114.4746712301862       -0.0000000000000000       -0.0000000000000000       -2114.4746712301862        0.0000000000000000     
           3   2114.4746712301862       -1881.1762040097253       -799.46005800365697        541.33431481696527        0.0000000000000000     
           4   2114.4746712301862        1881.1762040097253        799.46005800365697       -541.33431481696527        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1849647152229592E-006           OLP:   -4.1849647152229583E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3004286109475745E-006           OLP:   -8.3004286109475575E-006
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0263174772262573E-006           3
ABS integral  = 0.8965E-06  +/-  0.1814E-08  (   0.202 %)
Integral      = 0.5161E-06  +/-  0.2062E-08  (   0.400 %)
Virtual       = 0.2674E-08  +/-  0.1065E-08  (  39.826 %)
Virtual ratio = -.1946E+00  +/-  0.4171E-03  (   0.214 %)
ABS virtual   = 0.4838E-06  +/-  0.8465E-09  (   0.175 %)
Born          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
V  2          = 0.2674E-08  +/-  0.1065E-08  (  39.826 %)
B  2          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8965E-06  +/-  0.1814E-08  (   0.202 %)
accumulated results Integral      = 0.5161E-06  +/-  0.2062E-08  (   0.400 %)
accumulated results Virtual       = 0.2674E-08  +/-  0.1065E-08  (  39.826 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4171E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8465E-09  (   0.175 %)
accumulated results Born          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
accumulated results V  2          = 0.2674E-08  +/-  0.1065E-08  (  39.826 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2686E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206120    23880  0.3264E-06  0.1858E-06  0.9964E+00
channel    2 :     1 T   207091    24697  0.3334E-06  0.1998E-06  0.9647E+00
channel    3 :     2 T    73318     8614  0.1178E-06  0.6170E-07  0.8689E+00
channel    4 :     2 T    73340     8343  0.1190E-06  0.6884E-07  0.9816E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9650547215628590E-007  +/-   1.8144521443207319E-009
 Final result:   5.1611438285008364E-007  +/-   2.0620392744976514E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399261
   Stability unknown:                                          0
   Stable PS point:                                       399261
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399261
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399261
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.03421402    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.13101196    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.51639271    
 Time spent in Integrated_CT :    13.1398926    
 Time spent in Virtuals :    805.725464    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.4691820    
 Time spent in N1body_prefactor :    1.09117174    
 Time spent in Adding_alphas_pdf :    15.0193501    
 Time spent in Reweight_scale :    63.2423935    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.6703320    
 Time spent in Applying_cuts :    7.56786537    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    69.5096283    
 Time spent in Other_tasks :    34.0849609    
 Time spent in Total :    1062.20190    
Time in seconds: 1075



LOG file for integration channel /P0_uxu_emep/all_G1_35, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20872
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          35
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 110495
  with seed                   48
 Ranmar initialization seeds       30233       29677
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424137D+04 0.424137D+04  1.00
 muF1, muF1_reference: 0.424137D+04 0.424137D+04  1.00
 muF2, muF2_reference: 0.424137D+04 0.424137D+04  1.00
 QES,  QES_reference:  0.424137D+04 0.424137D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4970389453969888E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4970389453969888E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9019127054529378E-006           OLP:   -3.9019127054529446E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0563355397991914E-006           OLP:   -8.0563355397991609E-006
  FINITE:
           OLP:   -8.5470258712211031E-005
           BORN:    1.1245152108960875E-003
  MOMENTA (Exyzm): 
           1   2120.6839084079297        0.0000000000000000        0.0000000000000000        2120.6839084079297        0.0000000000000000     
           2   2120.6839084079297       -0.0000000000000000       -0.0000000000000000       -2120.6839084079297        0.0000000000000000     
           3   2120.6839084079297       -1824.2477177120554       -879.51344187176755        629.18726097209480        0.0000000000000000     
           4   2120.6839084079297        1824.2477177120554        879.51344187176755       -629.18726097209480        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9019127054529378E-006           OLP:   -3.9019127054529446E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0563355397991914E-006           OLP:   -8.0563355397991609E-006
 REAL 3: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8941E-06  +/-  0.1874E-08  (   0.210 %)
Integral      = 0.5126E-06  +/-  0.2115E-08  (   0.413 %)
Virtual       = 0.1390E-08  +/-  0.1064E-08  (  76.552 %)
Virtual ratio = -.1947E+00  +/-  0.4173E-03  (   0.214 %)
ABS virtual   = 0.4830E-06  +/-  0.8459E-09  (   0.175 %)
Born          = 0.1873E-05  +/-  0.2686E-08  (   0.143 %)
V  2          = 0.1390E-08  +/-  0.1064E-08  (  76.552 %)
B  2          = 0.1873E-05  +/-  0.2686E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8941E-06  +/-  0.1874E-08  (   0.210 %)
accumulated results Integral      = 0.5126E-06  +/-  0.2115E-08  (   0.413 %)
accumulated results Virtual       = 0.1390E-08  +/-  0.1064E-08  (  76.552 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4173E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8459E-09  (   0.175 %)
accumulated results Born          = 0.1873E-05  +/-  0.2686E-08  (   0.143 %)
accumulated results V  2          = 0.1390E-08  +/-  0.1064E-08  (  76.552 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2686E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206123    23880  0.3267E-06  0.1838E-06  0.8994E+00
channel    2 :     1 T   206642    24697  0.3311E-06  0.1977E-06  0.9671E+00
channel    3 :     2 T    73832     8614  0.1179E-06  0.6295E-07  0.9455E+00
channel    4 :     2 T    73270     8343  0.1184E-06  0.6812E-07  0.9639E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9406959709462319E-007  +/-   1.8744324517508296E-009
 Final result:   5.1257749286597701E-007  +/-   2.1147043750018069E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399213
   Stability unknown:                                          0
   Stable PS point:                                       399213
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399213
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399213
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.03531075    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.16204834    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.64514589    
 Time spent in Integrated_CT :    13.1683960    
 Time spent in Virtuals :    807.152039    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.4189262    
 Time spent in N1body_prefactor :    1.07230043    
 Time spent in Adding_alphas_pdf :    15.8262825    
 Time spent in Reweight_scale :    65.7426910    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.9161339    
 Time spent in Applying_cuts :    7.64259624    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    69.8775864    
 Time spent in Other_tasks :    34.2088623    
 Time spent in Total :    1067.86841    
Time in seconds: 1081



LOG file for integration channel /P0_uxu_emep/all_G1_36, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20865
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          36
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 113652
  with seed                   48
 Ranmar initialization seeds       30233        2753
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437214D+04 0.437214D+04  1.00
 muF1, muF1_reference: 0.437214D+04 0.437214D+04  1.00
 muF2, muF2_reference: 0.437214D+04 0.437214D+04  1.00
 QES,  QES_reference:  0.437214D+04 0.437214D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4756171632875651E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4756171632875665E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
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 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6496775326169570E-006           OLP:   -3.6496775326169561E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8286917384590160E-006           OLP:   -7.8286917384589737E-006
  FINITE:
           OLP:   -7.2998325807473836E-005
           BORN:    1.0518220703804955E-003
  MOMENTA (Exyzm): 
           1   2186.0710396122809        0.0000000000000000        0.0000000000000000        2186.0710396122809        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2186.0710396122809       -0.0000000000000000       -0.0000000000000000       -2186.0710396122809        0.0000000000000000     
           3   2186.0710396122809       -2004.3577963715982       -471.65114766863587        734.16728969545284        0.0000000000000000     
           4   2186.0710396122809        2004.3577963715982        471.65114766863587       -734.16728969545284        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6496775326169570E-006           OLP:   -3.6496775326169561E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8286917384590177E-006           OLP:   -7.8286917384589737E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8947E-06  +/-  0.1765E-08  (   0.197 %)
Integral      = 0.5154E-06  +/-  0.2017E-08  (   0.391 %)
Virtual       = 0.2147E-08  +/-  0.1060E-08  (  49.381 %)
Virtual ratio = -.1946E+00  +/-  0.4171E-03  (   0.214 %)
ABS virtual   = 0.4833E-06  +/-  0.8405E-09  (   0.174 %)
Born          = 0.1872E-05  +/-  0.2672E-08  (   0.143 %)
V  2          = 0.2147E-08  +/-  0.1060E-08  (  49.381 %)
B  2          = 0.1872E-05  +/-  0.2672E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8947E-06  +/-  0.1765E-08  (   0.197 %)
accumulated results Integral      = 0.5154E-06  +/-  0.2017E-08  (   0.391 %)
accumulated results Virtual       = 0.2147E-08  +/-  0.1060E-08  (  49.381 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4171E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8405E-09  (   0.174 %)
accumulated results Born          = 0.1872E-05  +/-  0.2672E-08  (   0.143 %)
accumulated results V  2          = 0.2147E-08  +/-  0.1060E-08  (  49.381 %)
accumulated results B  2          = 0.1872E-05  +/-  0.2672E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   205926    23880  0.3287E-06  0.1858E-06  0.9912E+00
channel    2 :     1 T   207058    24697  0.3309E-06  0.2005E-06  0.9753E+00
channel    3 :     2 T    73476     8614  0.1181E-06  0.6247E-07  0.9391E+00
channel    4 :     2 T    73413     8343  0.1169E-06  0.6657E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9465357749683081E-007  +/-   1.7646341927389948E-009
 Final result:   5.1540699666179610E-007  +/-   2.0171965418857786E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399225
   Stability unknown:                                          0
   Stable PS point:                                       399225
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399225
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399225
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.04230905    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.78914261    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.58459806    
 Time spent in Integrated_CT :    13.0333252    
 Time spent in Virtuals :    793.465515    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.0036888    
 Time spent in N1body_prefactor :    1.10697067    
 Time spent in Adding_alphas_pdf :    14.5164127    
 Time spent in Reweight_scale :    60.4503937    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.5065060    
 Time spent in Applying_cuts :    7.81313801    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    66.8579407    
 Time spent in Other_tasks :    34.7963867    
 Time spent in Total :    1044.96631    
Time in seconds: 1058



LOG file for integration channel /P0_uxu_emep/all_G1_37, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       20876
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          37
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 116809
  with seed                   48
 Ranmar initialization seeds       30233        5910
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436471D+04 0.436471D+04  1.00
 muF1, muF1_reference: 0.436471D+04 0.436471D+04  1.00
 muF2, muF2_reference: 0.436471D+04 0.436471D+04  1.00
 QES,  QES_reference:  0.436471D+04 0.436471D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4768141255152701E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4768141255152701E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8539609154157302E-006           OLP:   -3.8539609154157395E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0137130686172511E-006           OLP:   -8.0137130686172647E-006
  FINITE:
           OLP:   -8.5515458276695885E-005
           BORN:    1.1106957020149228E-003
  MOMENTA (Exyzm): 
           1   2182.3552201213470        0.0000000000000000        0.0000000000000000        2182.3552201213470        0.0000000000000000     
           2   2182.3552201213470       -0.0000000000000000       -0.0000000000000000       -2182.3552201213470        0.0000000000000000     
           3   2182.3552201213470       -1472.9621382546491       -1467.3775505358651        663.21939827069991        0.0000000000000000     
           4   2182.3552201213470        1472.9621382546491        1467.3775505358651       -663.21939827069991        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8539609154157302E-006           OLP:   -3.8539609154157395E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.0137130686172511E-006           OLP:   -8.0137130686172647E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8932E-06  +/-  0.1788E-08  (   0.200 %)
Integral      = 0.5145E-06  +/-  0.2037E-08  (   0.396 %)
Virtual       = 0.9771E-09  +/-  0.1063E-08  ( 108.806 %)
Virtual ratio = -.1946E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4827E-06  +/-  0.8450E-09  (   0.175 %)
Born          = 0.1873E-05  +/-  0.2681E-08  (   0.143 %)
V  2          = 0.9771E-09  +/-  0.1063E-08  ( 108.806 %)
B  2          = 0.1873E-05  +/-  0.2681E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8932E-06  +/-  0.1788E-08  (   0.200 %)
accumulated results Integral      = 0.5145E-06  +/-  0.2037E-08  (   0.396 %)
accumulated results Virtual       = 0.9771E-09  +/-  0.1063E-08  ( 108.806 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4827E-06  +/-  0.8450E-09  (   0.175 %)
accumulated results Born          = 0.1873E-05  +/-  0.2681E-08  (   0.143 %)
accumulated results V  2          = 0.9771E-09  +/-  0.1063E-08  ( 108.806 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2681E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206089    23880  0.3257E-06  0.1846E-06  0.1000E+01
channel    2 :     1 T   207575    24697  0.3337E-06  0.1982E-06  0.9473E+00
channel    3 :     2 T    73108     8614  0.1162E-06  0.6252E-07  0.9705E+00
channel    4 :     2 T    73097     8343  0.1175E-06  0.6914E-07  0.9778E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9315434873809538E-007  +/-   1.7882036004846598E-009
 Final result:   5.1448416166984429E-007  +/-   2.0370886906987557E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399092
   Stability unknown:                                          0
   Stable PS point:                                       399092
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399092
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399092
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.04559803    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.80906200    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.67571974    
 Time spent in Integrated_CT :    13.0015259    
 Time spent in Virtuals :    795.612000    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9866638    
 Time spent in N1body_prefactor :    1.09062839    
 Time spent in Adding_alphas_pdf :    14.4557285    
 Time spent in Reweight_scale :    60.3543854    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.6206913    
 Time spent in Applying_cuts :    7.77451611    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    67.8062286    
 Time spent in Other_tasks :    34.6015625    
 Time spent in Total :    1047.83435    
Time in seconds: 1060



LOG file for integration channel /P0_uxu_emep/all_G1_38, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       12008
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          38
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 119966
  with seed                   48
 Ranmar initialization seeds       30233        9067
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.428887D+04 0.428887D+04  1.00
 muF1, muF1_reference: 0.428887D+04 0.428887D+04  1.00
 muF2, muF2_reference: 0.428887D+04 0.428887D+04  1.00
 QES,  QES_reference:  0.428887D+04 0.428887D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4891680933215576E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4891680933215576E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5736233636365975E-006           OLP:   -3.5736233636366021E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7585645611061733E-006           OLP:   -7.7585645611061241E-006
  FINITE:
           OLP:   -6.6521435763592577E-005
           BORN:    1.0299035713451491E-003
  MOMENTA (Exyzm): 
           1   2144.4364306604784        0.0000000000000000        0.0000000000000000        2144.4364306604784        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2144.4364306604784       -0.0000000000000000       -0.0000000000000000       -2144.4364306604784        0.0000000000000000     
           3   2144.4364306604784       -1906.2533596310559       -637.94753241107253        746.87929408291188        0.0000000000000000     
           4   2144.4364306604784        1906.2533596310559        637.94753241107253       -746.87929408291188        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5736233636365975E-006           OLP:   -3.5736233636366021E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7585645611061733E-006           OLP:   -7.7585645611061241E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8965E-06  +/-  0.1907E-08  (   0.213 %)
Integral      = 0.5127E-06  +/-  0.2145E-08  (   0.418 %)
Virtual       = 0.9607E-09  +/-  0.1067E-08  ( 111.050 %)
Virtual ratio = -.1949E+00  +/-  0.4170E-03  (   0.214 %)
ABS virtual   = 0.4843E-06  +/-  0.8481E-09  (   0.175 %)
Born          = 0.1878E-05  +/-  0.2691E-08  (   0.143 %)
V  2          = 0.9607E-09  +/-  0.1067E-08  ( 111.050 %)
B  2          = 0.1878E-05  +/-  0.2691E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8965E-06  +/-  0.1907E-08  (   0.213 %)
accumulated results Integral      = 0.5127E-06  +/-  0.2145E-08  (   0.418 %)
accumulated results Virtual       = 0.9607E-09  +/-  0.1067E-08  ( 111.050 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4170E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8481E-09  (   0.175 %)
accumulated results Born          = 0.1878E-05  +/-  0.2691E-08  (   0.143 %)
accumulated results V  2          = 0.9607E-09  +/-  0.1067E-08  ( 111.050 %)
accumulated results B  2          = 0.1878E-05  +/-  0.2691E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   205931    23880  0.3273E-06  0.1839E-06  0.9691E+00
channel    2 :     1 T   207005    24697  0.3313E-06  0.2010E-06  0.9810E+00
channel    3 :     2 T    73631     8614  0.1181E-06  0.6067E-07  0.7697E+00
channel    4 :     2 T    73304     8343  0.1198E-06  0.6718E-07  0.9055E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9650901215827508E-007  +/-   1.9071245839663609E-009
 Final result:   5.1273906815182539E-007  +/-   2.1454853941546326E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399423
   Stability unknown:                                          0
   Stable PS point:                                       399423
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399423
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399423
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.59546649    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.52879953    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.78732634    
 Time spent in Integrated_CT :    10.0117798    
 Time spent in Virtuals :    602.881836    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.09531403    
 Time spent in N1body_prefactor :   0.820098937    
 Time spent in Adding_alphas_pdf :    10.6321793    
 Time spent in Reweight_scale :    45.2396927    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6494827    
 Time spent in Applying_cuts :    6.00315666    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.9847069    
 Time spent in Other_tasks :    26.5773926    
 Time spent in Total :    789.807312    
Time in seconds: 811



LOG file for integration channel /P0_uxu_emep/all_G1_39, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       12009
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          39
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 123123
  with seed                   48
 Ranmar initialization seeds       30233       12224
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.428372D+04 0.428372D+04  1.00
 muF1, muF1_reference: 0.428372D+04 0.428372D+04  1.00
 muF2, muF2_reference: 0.428372D+04 0.428372D+04  1.00
 QES,  QES_reference:  0.428372D+04 0.428372D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4900172279900326E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4900172279900312E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7218187378502019E-006           OLP:   -3.7218187378501964E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8946375534481058E-006           OLP:   -7.8946375534481261E-006
  FINITE:
           OLP:   -7.5405161804772936E-005
           BORN:    1.0726128693401415E-003
  MOMENTA (Exyzm): 
           1   2141.8588437393846        0.0000000000000000        0.0000000000000000        2141.8588437393846        0.0000000000000000     
           2   2141.8588437393846       -0.0000000000000000       -0.0000000000000000       -2141.8588437393846        0.0000000000000000     
           3   2141.8588437393846       -1147.2809111673580       -1669.9582987120480        694.65466092035456        0.0000000000000000     
           4   2141.8588437393846        1147.2809111673580        1669.9582987120480       -694.65466092035456        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7218187378502019E-006           OLP:   -3.7218187378501964E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.8946375534481058E-006           OLP:   -7.8946375534481261E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8966E-06  +/-  0.2237E-08  (   0.249 %)
Integral      = 0.5148E-06  +/-  0.2442E-08  (   0.474 %)
Virtual       = 0.4646E-10  +/-  0.1062E-08  ( ******* %)
Virtual ratio = -.1949E+00  +/-  0.4172E-03  (   0.214 %)
ABS virtual   = 0.4834E-06  +/-  0.8434E-09  (   0.174 %)
Born          = 0.1876E-05  +/-  0.2688E-08  (   0.143 %)
V  2          = 0.4646E-10  +/-  0.1062E-08  ( ******* %)
B  2          = 0.1876E-05  +/-  0.2688E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8966E-06  +/-  0.2237E-08  (   0.249 %)
accumulated results Integral      = 0.5148E-06  +/-  0.2442E-08  (   0.474 %)
accumulated results Virtual       = 0.4646E-10  +/-  0.1062E-08  ( ******* %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4172E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8434E-09  (   0.174 %)
accumulated results Born          = 0.1876E-05  +/-  0.2688E-08  (   0.143 %)
accumulated results V  2          = 0.4646E-10  +/-  0.1062E-08  ( ******* %)
accumulated results B  2          = 0.1876E-05  +/-  0.2688E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205956    23880  0.3269E-06  0.1837E-06  0.1000E+01
channel    2 :     1 T   207206    24697  0.3348E-06  0.1991E-06  0.6509E+00
channel    3 :     2 T    73566     8614  0.1173E-06  0.6361E-07  0.9499E+00
channel    4 :     2 T    73145     8343  0.1177E-06  0.6844E-07  0.9951E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9664887895898591E-007  +/-   2.2367251622396481E-009
 Final result:   5.1483454766237382E-007  +/-   2.4424423901605568E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399048
   Stability unknown:                                          0
   Stable PS point:                                       399048
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399048
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399048
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58589971    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.50074291    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.79988050    
 Time spent in Integrated_CT :    10.1082153    
 Time spent in Virtuals :    605.253052    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.01716995    
 Time spent in N1body_prefactor :   0.861057937    
 Time spent in Adding_alphas_pdf :    10.6264143    
 Time spent in Reweight_scale :    45.5890198    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6738377    
 Time spent in Applying_cuts :    6.10787582    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.0042648    
 Time spent in Other_tasks :    26.7056274    
 Time spent in Total :    792.833008    
Time in seconds: 821



LOG file for integration channel /P0_uxu_emep/all_G1_40, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       12007
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          40
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 126280
  with seed                   48
 Ranmar initialization seeds       30233       15381
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425865D+04 0.425865D+04  1.00
 muF1, muF1_reference: 0.425865D+04 0.425865D+04  1.00
 muF2, muF2_reference: 0.425865D+04 0.425865D+04  1.00
 QES,  QES_reference:  0.425865D+04 0.425865D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4941634807787386E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4941634807787386E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1131201455443527E-006           OLP:   -4.1131201455443476E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2397354855166536E-006           OLP:   -8.2397354855166384E-006
  FINITE:
           OLP:   -9.9138265237741938E-005
           BORN:    1.1853843273951069E-003
  MOMENTA (Exyzm): 
           1   2129.3251918095302        0.0000000000000000        0.0000000000000000        2129.3251918095302        0.0000000000000000     
           2   2129.3251918095302       -0.0000000000000000       -0.0000000000000000       -2129.3251918095302        0.0000000000000000     
           3   2129.3251918095302       -1683.1486318675534       -1174.7769203801877        566.51182058198810        0.0000000000000000     
           4   2129.3251918095302        1683.1486318675534        1174.7769203801877       -566.51182058198810        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1131201455443527E-006           OLP:   -4.1131201455443476E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2397354855166553E-006           OLP:   -8.2397354855166384E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8928E-06  +/-  0.1790E-08  (   0.201 %)
Integral      = 0.5148E-06  +/-  0.2039E-08  (   0.396 %)
Virtual       = -.2311E-11  +/-  0.1061E-08  ( ******* %)
Virtual ratio = -.1953E+00  +/-  0.4165E-03  (   0.213 %)
ABS virtual   = 0.4828E-06  +/-  0.8420E-09  (   0.174 %)
Born          = 0.1874E-05  +/-  0.2678E-08  (   0.143 %)
V  2          = -.2311E-11  +/-  0.1061E-08  ( ******* %)
B  2          = 0.1874E-05  +/-  0.2678E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8928E-06  +/-  0.1790E-08  (   0.201 %)
accumulated results Integral      = 0.5148E-06  +/-  0.2039E-08  (   0.396 %)
accumulated results Virtual       = -.2311E-11  +/-  0.1061E-08  ( ******* %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4165E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8420E-09  (   0.174 %)
accumulated results Born          = 0.1874E-05  +/-  0.2678E-08  (   0.143 %)
accumulated results V  2          = -.2311E-11  +/-  0.1061E-08  ( ******* %)
accumulated results B  2          = 0.1874E-05  +/-  0.2678E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206583    23880  0.3266E-06  0.1863E-06  0.9943E+00
channel    2 :     1 T   206276    24697  0.3305E-06  0.1982E-06  0.9667E+00
channel    3 :     2 T    73415     8614  0.1163E-06  0.6142E-07  0.9091E+00
channel    4 :     2 T    73597     8343  0.1194E-06  0.6892E-07  0.9813E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9275901103825563E-007  +/-   1.7904653282767313E-009
 Final result:   5.1483760331218358E-007  +/-   2.0386057579052441E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399578
   Stability unknown:                                          0
   Stable PS point:                                       399578
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399578
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399578
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.60429406    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.64694309    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.70382118    
 Time spent in Integrated_CT :    9.98199463    
 Time spent in Virtuals :    603.870972    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.16236782    
 Time spent in N1body_prefactor :   0.827191710    
 Time spent in Adding_alphas_pdf :    10.7226200    
 Time spent in Reweight_scale :    45.7175560    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.1870880    
 Time spent in Applying_cuts :    5.86809587    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.6673050    
 Time spent in Other_tasks :    26.0995483    
 Time spent in Total :    791.059753    
Time in seconds: 813



LOG file for integration channel /P0_uxu_emep/all_G1_41, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       12013
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          41
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 129437
  with seed                   48
 Ranmar initialization seeds       30233       18538
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432648D+04 0.432648D+04  1.00
 muF1, muF1_reference: 0.432648D+04 0.432648D+04  1.00
 muF2, muF2_reference: 0.432648D+04 0.432648D+04  1.00
 QES,  QES_reference:  0.432648D+04 0.432648D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4830098233542156E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4830098233542156E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7156727847994761E-006           OLP:   -3.7156727847994782E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8890412337238923E-006           OLP:   -7.8890412337238940E-006
  FINITE:
           OLP:   -7.6019845870847329E-005
           BORN:    1.0708416309212665E-003
  MOMENTA (Exyzm): 
           1   2163.2402444004965        0.0000000000000000        0.0000000000000000        2163.2402444004965        0.0000000000000000     
           2   2163.2402444004965       -0.0000000000000000       -0.0000000000000000       -2163.2402444004965        0.0000000000000000     
           3   2163.2402444004965       -1632.0426656785198       -1233.2349165537421        703.68795143270449        0.0000000000000000     
           4   2163.2402444004965        1632.0426656785198        1233.2349165537421       -703.68795143270449        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7156727847994761E-006           OLP:   -3.7156727847994782E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8890412337238940E-006           OLP:   -7.8890412337238940E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8965E-06  +/-  0.1886E-08  (   0.210 %)
Integral      = 0.5132E-06  +/-  0.2127E-08  (   0.414 %)
Virtual       = 0.9988E-09  +/-  0.1062E-08  ( 106.344 %)
Virtual ratio = -.1949E+00  +/-  0.4171E-03  (   0.214 %)
ABS virtual   = 0.4828E-06  +/-  0.8438E-09  (   0.175 %)
Born          = 0.1873E-05  +/-  0.2674E-08  (   0.143 %)
V  2          = 0.9988E-09  +/-  0.1062E-08  ( 106.344 %)
B  2          = 0.1873E-05  +/-  0.2674E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8965E-06  +/-  0.1886E-08  (   0.210 %)
accumulated results Integral      = 0.5132E-06  +/-  0.2127E-08  (   0.414 %)
accumulated results Virtual       = 0.9988E-09  +/-  0.1062E-08  ( 106.344 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4171E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8438E-09  (   0.175 %)
accumulated results Born          = 0.1873E-05  +/-  0.2674E-08  (   0.143 %)
accumulated results V  2          = 0.9988E-09  +/-  0.1062E-08  ( 106.344 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2674E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   206534    23880  0.3280E-06  0.1836E-06  0.9238E+00
channel    2 :     1 T   205946    24697  0.3308E-06  0.1992E-06  0.9474E+00
channel    3 :     2 T    73759     8614  0.1183E-06  0.6208E-07  0.8587E+00
channel    4 :     2 T    73632     8343  0.1194E-06  0.6829E-07  0.9914E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9651766011390784E-007  +/-   1.8864131583989042E-009
 Final result:   5.1316972315208750E-007  +/-   2.1269171506835894E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399303
   Stability unknown:                                          0
   Stable PS point:                                       399303
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399303
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399303
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54145420    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.55197239    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.55332565    
 Time spent in Integrated_CT :    9.80297852    
 Time spent in Virtuals :    595.487183    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.10557365    
 Time spent in N1body_prefactor :   0.785757780    
 Time spent in Adding_alphas_pdf :    10.6533833    
 Time spent in Reweight_scale :    45.3355103    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.6637039    
 Time spent in Applying_cuts :    5.71198034    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    48.1555901    
 Time spent in Other_tasks :    25.4271240    
 Time spent in Total :    780.775513    
Time in seconds: 801



LOG file for integration channel /P0_uxu_emep/all_G1_42, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       12010
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          42
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 132594
  with seed                   48
 Ranmar initialization seeds       30233       21695
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419980D+04 0.419980D+04  1.00
 muF1, muF1_reference: 0.419980D+04 0.419980D+04  1.00
 muF2, muF2_reference: 0.419980D+04 0.419980D+04  1.00
 QES,  QES_reference:  0.419980D+04 0.419980D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5040126640388102E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5040126640388102E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9672050568907903E-006           OLP:   -3.9672050568907886E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1138025464637284E-006           OLP:   -8.1138025464637046E-006
  FINITE:
           OLP:   -8.8457606951877738E-005
           BORN:    1.1433321983300784E-003
  MOMENTA (Exyzm): 
           1   2099.8983874181749        0.0000000000000000        0.0000000000000000        2099.8983874181749        0.0000000000000000     
           2   2099.8983874181749       -0.0000000000000000       -0.0000000000000000       -2099.8983874181749        0.0000000000000000     
           3   2099.8983874181749       -1567.0572278709089       -1261.1963124472024        602.73438887172597        0.0000000000000000     
           4   2099.8983874181749        1567.0572278709089        1261.1963124472024       -602.73438887172597        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9672050568907903E-006           OLP:   -3.9672050568907886E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1138025464637267E-006           OLP:   -8.1138025464637046E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8951E-06  +/-  0.1849E-08  (   0.207 %)
Integral      = 0.5141E-06  +/-  0.2093E-08  (   0.407 %)
Virtual       = 0.6853E-09  +/-  0.1066E-08  ( 155.573 %)
Virtual ratio = -.1947E+00  +/-  0.4168E-03  (   0.214 %)
ABS virtual   = 0.4838E-06  +/-  0.8477E-09  (   0.175 %)
Born          = 0.1874E-05  +/-  0.2681E-08  (   0.143 %)
V  2          = 0.6853E-09  +/-  0.1066E-08  ( 155.573 %)
B  2          = 0.1874E-05  +/-  0.2681E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8951E-06  +/-  0.1849E-08  (   0.207 %)
accumulated results Integral      = 0.5141E-06  +/-  0.2093E-08  (   0.407 %)
accumulated results Virtual       = 0.6853E-09  +/-  0.1066E-08  ( 155.573 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4168E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8477E-09  (   0.175 %)
accumulated results Born          = 0.1874E-05  +/-  0.2681E-08  (   0.143 %)
accumulated results V  2          = 0.6853E-09  +/-  0.1066E-08  ( 155.573 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2681E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   205970    23880  0.3263E-06  0.1857E-06  0.9925E+00
channel    2 :     1 T   207313    24697  0.3328E-06  0.1985E-06  0.9712E+00
channel    3 :     2 T    73199     8614  0.1172E-06  0.6142E-07  0.7829E+00
channel    4 :     2 T    73387     8343  0.1187E-06  0.6845E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9507497711424122E-007  +/-   1.8493252345629234E-009
 Final result:   5.1411818177415092E-007  +/-   2.0925747066125445E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399175
   Stability unknown:                                          0
   Stable PS point:                                       399175
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399175
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399175
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.56058693    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.52050018    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.77448654    
 Time spent in Integrated_CT :    9.95806885    
 Time spent in Virtuals :    602.972717    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.03202438    
 Time spent in N1body_prefactor :   0.829667330    
 Time spent in Adding_alphas_pdf :    10.6392221    
 Time spent in Reweight_scale :    45.4204979    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6909447    
 Time spent in Applying_cuts :    6.10506535    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.7140884    
 Time spent in Other_tasks :    26.4536743    
 Time spent in Total :    789.671509    
Time in seconds: 811



LOG file for integration channel /P0_uxu_emep/all_G1_43, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11994
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          43
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 135751
  with seed                   48
 Ranmar initialization seeds       30233       24852
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436305D+04 0.436305D+04  1.00
 muF1, muF1_reference: 0.436305D+04 0.436305D+04  1.00
 muF2, muF2_reference: 0.436305D+04 0.436305D+04  1.00
 QES,  QES_reference:  0.436305D+04 0.436305D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4770813443961234E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4770813443961234E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3852833478630214E-006           OLP:   -3.3852833478630193E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5829180005788826E-006           OLP:   -7.5829180005788758E-006
  FINITE:
           OLP:   -5.6803888235364808E-005
           BORN:    9.7562475258484820E-004
  MOMENTA (Exyzm): 
           1   2181.5266909768638        0.0000000000000000        0.0000000000000000        2181.5266909768638        0.0000000000000000     
           2   2181.5266909768638       -0.0000000000000000       -0.0000000000000000       -2181.5266909768638        0.0000000000000000     
           3   2181.5266909768638       -1292.1858440500052       -1549.1186512639144        830.38897643665200        0.0000000000000000     
           4   2181.5266909768638        1292.1858440500052        1549.1186512639144       -830.38897643665200        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3852833478630214E-006           OLP:   -3.3852833478630193E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5829180005788809E-006           OLP:   -7.5829180005788758E-006
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.8930E-06  +/-  0.1818E-08  (   0.204 %)
Integral      = 0.5117E-06  +/-  0.2064E-08  (   0.403 %)
Virtual       = 0.9416E-09  +/-  0.1064E-08  ( 112.959 %)
Virtual ratio = -.1948E+00  +/-  0.4166E-03  (   0.214 %)
ABS virtual   = 0.4829E-06  +/-  0.8454E-09  (   0.175 %)
Born          = 0.1873E-05  +/-  0.2684E-08  (   0.143 %)
V  2          = 0.9416E-09  +/-  0.1064E-08  ( 112.959 %)
B  2          = 0.1873E-05  +/-  0.2684E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8930E-06  +/-  0.1818E-08  (   0.204 %)
accumulated results Integral      = 0.5117E-06  +/-  0.2064E-08  (   0.403 %)
accumulated results Virtual       = 0.9416E-09  +/-  0.1064E-08  ( 112.959 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4166E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4829E-06  +/-  0.8454E-09  (   0.175 %)
accumulated results Born          = 0.1873E-05  +/-  0.2684E-08  (   0.143 %)
accumulated results V  2          = 0.9416E-09  +/-  0.1064E-08  ( 112.959 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2684E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   206570    23880  0.3269E-06  0.1837E-06  0.9588E+00
channel    2 :     1 T   206447    24697  0.3307E-06  0.1978E-06  0.9666E+00
channel    3 :     2 T    73597     8614  0.1181E-06  0.6222E-07  0.9062E+00
channel    4 :     2 T    73262     8343  0.1173E-06  0.6791E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9302916391438401E-007  +/-   1.8175878648214225E-009
 Final result:   5.1169836462545824E-007  +/-   2.0640713490837468E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399030
   Stability unknown:                                          0
   Stable PS point:                                       399030
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399030
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399030
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.61285377    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.54624367    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.78196812    
 Time spent in Integrated_CT :    10.0939331    
 Time spent in Virtuals :    605.275330    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.05062294    
 Time spent in N1body_prefactor :   0.836294115    
 Time spent in Adding_alphas_pdf :    10.6857796    
 Time spent in Reweight_scale :    45.2012329    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.9851952    
 Time spent in Applying_cuts :    6.18540430    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.7299309    
 Time spent in Other_tasks :    26.6198730    
 Time spent in Total :    792.604614    
Time in seconds: 819



LOG file for integration channel /P0_uxu_emep/all_G1_44, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       12012
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          44
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 138908
  with seed                   48
 Ranmar initialization seeds       30233       28009
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.428688D+04 0.428688D+04  1.00
 muF1, muF1_reference: 0.428688D+04 0.428688D+04  1.00
 muF2, muF2_reference: 0.428688D+04 0.428688D+04  1.00
 QES,  QES_reference:  0.428688D+04 0.428688D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4894955589377366E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4894955589377366E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8782417298490570E-006           OLP:   -3.8782417298490528E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0353387102185438E-006           OLP:   -8.0353387102185387E-006
  FINITE:
           OLP:   -8.5132070735733945E-005
           BORN:    1.1176933329780819E-003
  MOMENTA (Exyzm): 
           1   2143.4419597456713        0.0000000000000000        0.0000000000000000        2143.4419597456713        0.0000000000000000     
           2   2143.4419597456713       -0.0000000000000000       -0.0000000000000000       -2143.4419597456713        0.0000000000000000     
           3   2143.4419597456713       -1146.2271403691466       -1693.0331234737871        643.54146742857665        0.0000000000000000     
           4   2143.4419597456713        1146.2271403691466        1693.0331234737871       -643.54146742857665        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8782417298490570E-006           OLP:   -3.8782417298490528E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0353387102185455E-006           OLP:   -8.0353387102185387E-006
 REAL 2: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.8954E-06  +/-  0.1808E-08  (   0.202 %)
Integral      = 0.5162E-06  +/-  0.2055E-08  (   0.398 %)
Virtual       = 0.1795E-08  +/-  0.1072E-08  (  59.727 %)
Virtual ratio = -.1947E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4846E-06  +/-  0.8544E-09  (   0.176 %)
Born          = 0.1876E-05  +/-  0.2694E-08  (   0.144 %)
V  2          = 0.1795E-08  +/-  0.1072E-08  (  59.727 %)
B  2          = 0.1876E-05  +/-  0.2694E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8954E-06  +/-  0.1808E-08  (   0.202 %)
accumulated results Integral      = 0.5162E-06  +/-  0.2055E-08  (   0.398 %)
accumulated results Virtual       = 0.1795E-08  +/-  0.1072E-08  (  59.727 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4846E-06  +/-  0.8544E-09  (   0.176 %)
accumulated results Born          = 0.1876E-05  +/-  0.2694E-08  (   0.144 %)
accumulated results V  2          = 0.1795E-08  +/-  0.1072E-08  (  59.727 %)
accumulated results B  2          = 0.1876E-05  +/-  0.2694E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                3                     4
channel    1 :     1 T   206021    23880  0.3278E-06  0.1858E-06  0.9669E+00
channel    2 :     1 T   206980    24697  0.3313E-06  0.1975E-06  0.9697E+00
channel    3 :     2 T    74037     8614  0.1183E-06  0.6404E-07  0.9723E+00
channel    4 :     2 T    72835     8343  0.1180E-06  0.6896E-07  0.9898E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9537913065341724E-007  +/-   1.8078251057720686E-009
 Final result:   5.1622589154625804E-007  +/-   2.0552835581906488E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399279
   Stability unknown:                                          0
   Stable PS point:                                       399279
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399279
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399279
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.60716677    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.52716732    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.82133245    
 Time spent in Integrated_CT :    10.0964966    
 Time spent in Virtuals :    603.545105    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.02496719    
 Time spent in N1body_prefactor :   0.823724329    
 Time spent in Adding_alphas_pdf :    10.7518101    
 Time spent in Reweight_scale :    45.2321320    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6836433    
 Time spent in Applying_cuts :    6.08985233    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.9274483    
 Time spent in Other_tasks :    26.8646851    
 Time spent in Total :    790.995544    
Time in seconds: 813



LOG file for integration channel /P0_uxu_emep/all_G1_45, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       12004
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          45
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 142065
  with seed                   48
 Ranmar initialization seeds       30233        1085
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435420D+04 0.435420D+04  1.00
 muF1, muF1_reference: 0.435420D+04 0.435420D+04  1.00
 muF2, muF2_reference: 0.435420D+04 0.435420D+04  1.00
 QES,  QES_reference:  0.435420D+04 0.435420D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4785113126285302E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4785113126285302E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3572114091480432E-006           OLP:   -3.3572114091480393E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5565903504196893E-006           OLP:   -7.5565903504196630E-006
  FINITE:
           OLP:   -5.4960654836106213E-005
           BORN:    9.6753453517936386E-004
  MOMENTA (Exyzm): 
           1   2177.0992895776476        0.0000000000000000        0.0000000000000000        2177.0992895776476        0.0000000000000000     
           2   2177.0992895776476       -0.0000000000000000       -0.0000000000000000       -2177.0992895776476        0.0000000000000000     
           3   2177.0992895776476       -1981.9353043371552       -326.60053416490064        839.65817877555764        0.0000000000000000     
           4   2177.0992895776476        1981.9353043371552        326.60053416490064       -839.65817877555764        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3572114091480432E-006           OLP:   -3.3572114091480393E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5565903504196901E-006           OLP:   -7.5565903504196630E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8948E-06  +/-  0.1829E-08  (   0.204 %)
Integral      = 0.5163E-06  +/-  0.2073E-08  (   0.401 %)
Virtual       = 0.2164E-08  +/-  0.1067E-08  (  49.280 %)
Virtual ratio = -.1944E+00  +/-  0.4172E-03  (   0.215 %)
ABS virtual   = 0.4843E-06  +/-  0.8476E-09  (   0.175 %)
Born          = 0.1876E-05  +/-  0.2695E-08  (   0.144 %)
V  2          = 0.2164E-08  +/-  0.1067E-08  (  49.280 %)
B  2          = 0.1876E-05  +/-  0.2695E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8948E-06  +/-  0.1829E-08  (   0.204 %)
accumulated results Integral      = 0.5163E-06  +/-  0.2073E-08  (   0.401 %)
accumulated results Virtual       = 0.2164E-08  +/-  0.1067E-08  (  49.280 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4172E-03  (   0.215 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8476E-09  (   0.175 %)
accumulated results Born          = 0.1876E-05  +/-  0.2695E-08  (   0.144 %)
accumulated results V  2          = 0.2164E-08  +/-  0.1067E-08  (  49.280 %)
accumulated results B  2          = 0.1876E-05  +/-  0.2695E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206105    23880  0.3278E-06  0.1845E-06  0.9250E+00
channel    2 :     1 T   207043    24697  0.3316E-06  0.2015E-06  0.9764E+00
channel    3 :     2 T    73572     8614  0.1163E-06  0.6219E-07  0.9698E+00
channel    4 :     2 T    73156     8343  0.1191E-06  0.6809E-07  0.9941E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9482095586755538E-007  +/-   1.8285057987790498E-009
 Final result:   5.1632803856842634E-007  +/-   2.0730217528990580E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399259
   Stability unknown:                                          0
   Stable PS point:                                       399259
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399259
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399259
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.59470916    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.58298683    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.82084084    
 Time spent in Integrated_CT :    10.1750488    
 Time spent in Virtuals :    604.506409    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.10600567    
 Time spent in N1body_prefactor :   0.838767886    
 Time spent in Adding_alphas_pdf :    11.5616827    
 Time spent in Reweight_scale :    47.7653160    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.7155495    
 Time spent in Applying_cuts :    6.11720705    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.0779190    
 Time spent in Other_tasks :    26.6062012    
 Time spent in Total :    795.468689    
Time in seconds: 828



LOG file for integration channel /P0_uxu_emep/all_G1_46, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       12002
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          46
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 145222
  with seed                   48
 Ranmar initialization seeds       30233        4242
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435975D+04 0.435975D+04  1.00
 muF1, muF1_reference: 0.435975D+04 0.435975D+04  1.00
 muF2, muF2_reference: 0.435975D+04 0.435975D+04  1.00
 QES,  QES_reference:  0.435975D+04 0.435975D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4776145657097781E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4776145657097781E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8765470835526203E-006           OLP:   -3.8765470835526287E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0338249104289587E-006           OLP:   -8.0338249104289553E-006
  FINITE:
           OLP:   -8.6812696170288837E-005
           BORN:    1.1172049428778196E-003
  MOMENTA (Exyzm): 
           1   2179.8745139956363        0.0000000000000000        0.0000000000000000        2179.8745139956363        0.0000000000000000     
           2   2179.8745139956363       -0.0000000000000000       -0.0000000000000000       -2179.8745139956363        0.0000000000000000     
           3   2179.8745139956363       -1531.4472449925486       -1406.2195829694742        655.03337094044514        0.0000000000000000     
           4   2179.8745139956363        1531.4472449925486        1406.2195829694742       -655.03337094044514        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8765470835526203E-006           OLP:   -3.8765470835526287E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0338249104289604E-006           OLP:   -8.0338249104289553E-006
 REAL 2: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8967E-06  +/-  0.1831E-08  (   0.204 %)
Integral      = 0.5151E-06  +/-  0.2077E-08  (   0.403 %)
Virtual       = 0.1520E-08  +/-  0.1065E-08  (  70.059 %)
Virtual ratio = -.1948E+00  +/-  0.4167E-03  (   0.214 %)
ABS virtual   = 0.4833E-06  +/-  0.8466E-09  (   0.175 %)
Born          = 0.1874E-05  +/-  0.2692E-08  (   0.144 %)
V  2          = 0.1520E-08  +/-  0.1065E-08  (  70.059 %)
B  2          = 0.1874E-05  +/-  0.2692E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8967E-06  +/-  0.1831E-08  (   0.204 %)
accumulated results Integral      = 0.5151E-06  +/-  0.2077E-08  (   0.403 %)
accumulated results Virtual       = 0.1520E-08  +/-  0.1065E-08  (  70.059 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4167E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8466E-09  (   0.175 %)
accumulated results Born          = 0.1874E-05  +/-  0.2692E-08  (   0.144 %)
accumulated results V  2          = 0.1520E-08  +/-  0.1065E-08  (  70.059 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2692E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   205625    23880  0.3250E-06  0.1845E-06  0.9917E+00
channel    2 :     1 T   206659    24697  0.3338E-06  0.1987E-06  0.9174E+00
channel    3 :     2 T    74228     8614  0.1185E-06  0.6437E-07  0.9629E+00
channel    4 :     2 T    73361     8343  0.1195E-06  0.6752E-07  0.9703E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9671831922070311E-007  +/-   1.8308436846396771E-009
 Final result:   5.1509138717072292E-007  +/-   2.0770950698969878E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399204
   Stability unknown:                                          0
   Stable PS point:                                       399204
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399204
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399204
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.57977176    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.53116465    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.83424282    
 Time spent in Integrated_CT :    10.0921631    
 Time spent in Virtuals :    604.661804    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.96250439    
 Time spent in N1body_prefactor :   0.817412615    
 Time spent in Adding_alphas_pdf :    10.6950245    
 Time spent in Reweight_scale :    45.1245193    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    18.0999355    
 Time spent in Applying_cuts :    6.20542622    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.9837036    
 Time spent in Other_tasks :    26.8543701    
 Time spent in Total :    792.442017    
Time in seconds: 818



LOG file for integration channel /P0_uxu_emep/all_G1_47, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       12011
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          47
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 148379
  with seed                   48
 Ranmar initialization seeds       30233        7399
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431302D+04 0.431302D+04  1.00
 muF1, muF1_reference: 0.431302D+04 0.431302D+04  1.00
 muF2, muF2_reference: 0.431302D+04 0.431302D+04  1.00
 QES,  QES_reference:  0.431302D+04 0.431302D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4852059735343299E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4852059735343299E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7357097490825601E-006           OLP:   -3.7357097490825546E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9072618877568527E-006           OLP:   -7.9072618877568290E-006
  FINITE:
           OLP:   -7.6940612651427371E-005
           BORN:    1.0766162017067742E-003
  MOMENTA (Exyzm): 
           1   2156.5121983122249        0.0000000000000000        0.0000000000000000        2156.5121983122249        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2156.5121983122249       -0.0000000000000000       -0.0000000000000000       -2156.5121983122249        0.0000000000000000     
           3   2156.5121983122249       -1857.9967950174630       -846.04773495571362        694.69129931975215        0.0000000000000000     
           4   2156.5121983122249        1857.9967950174630        846.04773495571362       -694.69129931975215        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7357097490825601E-006           OLP:   -3.7357097490825546E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9072618877568510E-006           OLP:   -7.9072618877568290E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8962E-06  +/-  0.1898E-08  (   0.212 %)
Integral      = 0.5138E-06  +/-  0.2137E-08  (   0.416 %)
Virtual       = 0.1968E-08  +/-  0.1061E-08  (  53.909 %)
Virtual ratio = -.1942E+00  +/-  0.4171E-03  (   0.215 %)
ABS virtual   = 0.4833E-06  +/-  0.8418E-09  (   0.174 %)
Born          = 0.1873E-05  +/-  0.2676E-08  (   0.143 %)
V  2          = 0.1968E-08  +/-  0.1061E-08  (  53.909 %)
B  2          = 0.1873E-05  +/-  0.2676E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8962E-06  +/-  0.1898E-08  (   0.212 %)
accumulated results Integral      = 0.5138E-06  +/-  0.2137E-08  (   0.416 %)
accumulated results Virtual       = 0.1968E-08  +/-  0.1061E-08  (  53.909 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4171E-03  (   0.215 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8418E-09  (   0.174 %)
accumulated results Born          = 0.1873E-05  +/-  0.2676E-08  (   0.143 %)
accumulated results V  2          = 0.1968E-08  +/-  0.1061E-08  (  53.909 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2676E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                 2                3                    4
channel    1 :     1 T   206172    23880  0.3276E-06  0.1861E-06  0.9954E+00
channel    2 :     1 T   207133    24697  0.3341E-06  0.1981E-06  0.8953E+00
channel    3 :     2 T    73226     8614  0.1160E-06  0.6194E-07  0.9573E+00
channel    4 :     2 T    73348     8343  0.1184E-06  0.6769E-07  0.8471E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9619671105264757E-007  +/-   1.8978766090804560E-009
 Final result:   5.1375461881812379E-007  +/-   2.1365994197790978E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399113
   Stability unknown:                                          0
   Stable PS point:                                       399113
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399113
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399113
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58941245    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.55029011    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.86402416    
 Time spent in Integrated_CT :    10.1005249    
 Time spent in Virtuals :    606.413940    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.98258209    
 Time spent in N1body_prefactor :   0.822008610    
 Time spent in Adding_alphas_pdf :    10.7776804    
 Time spent in Reweight_scale :    45.5074539    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.9145622    
 Time spent in Applying_cuts :    6.21576786    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.0116577    
 Time spent in Other_tasks :    26.8394165    
 Time spent in Total :    794.589355    
Time in seconds: 825



LOG file for integration channel /P0_uxu_emep/all_G1_48, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11995
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          48
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 151536
  with seed                   48
 Ranmar initialization seeds       30233       10556
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.418090D+04 0.418090D+04  1.00
 muF1, muF1_reference: 0.418090D+04 0.418090D+04  1.00
 muF2, muF2_reference: 0.418090D+04 0.418090D+04  1.00
 QES,  QES_reference:  0.418090D+04 0.418090D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5072097011630839E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5072097011630839E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.2821841380380361E-006           OLP:   -4.2821841380380302E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3811055407422900E-006           OLP:   -8.3811055407423086E-006
  FINITE:
           OLP:   -1.0768658417909075E-004
           BORN:    1.2341078754407318E-003
  MOMENTA (Exyzm): 
           1   2090.4501165707611        0.0000000000000000        0.0000000000000000        2090.4501165707611        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2090.4501165707611       -0.0000000000000000       -0.0000000000000000       -2090.4501165707611        0.0000000000000000     
           3   2090.4501165707611       -2024.1266674761173       -124.35903385707472        507.37338773419248        0.0000000000000000     
           4   2090.4501165707611        2024.1266674761173        124.35903385707472       -507.37338773419248        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.2821841380380361E-006           OLP:   -4.2821841380380302E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3811055407422900E-006           OLP:   -8.3811055407423086E-006
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
ABS integral  = 0.8958E-06  +/-  0.1860E-08  (   0.208 %)
Integral      = 0.5110E-06  +/-  0.2104E-08  (   0.412 %)
Virtual       = -.6751E-09  +/-  0.1063E-08  ( 157.385 %)
Virtual ratio = -.1954E+00  +/-  0.4172E-03  (   0.214 %)
ABS virtual   = 0.4833E-06  +/-  0.8437E-09  (   0.175 %)
Born          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
V  2          = -.6751E-09  +/-  0.1063E-08  ( 157.385 %)
B  2          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8958E-06  +/-  0.1860E-08  (   0.208 %)
accumulated results Integral      = 0.5110E-06  +/-  0.2104E-08  (   0.412 %)
accumulated results Virtual       = -.6751E-09  +/-  0.1063E-08  ( 157.385 %)
accumulated results Virtual ratio = -.1954E+00  +/-  0.4172E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8437E-09  (   0.175 %)
accumulated results Born          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
accumulated results V  2          = -.6751E-09  +/-  0.1063E-08  ( 157.385 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205830    23880  0.3248E-06  0.1840E-06  0.1000E+01
channel    2 :     1 T   206863    24697  0.3330E-06  0.1968E-06  0.9065E+00
channel    3 :     2 T    73417     8614  0.1175E-06  0.6223E-07  0.9002E+00
channel    4 :     2 T    73759     8343  0.1205E-06  0.6801E-07  0.9285E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9583602372436943E-007  +/-   1.8595710546335260E-009
 Final result:   5.1098486487113030E-007  +/-   2.1035781395695322E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399081
   Stability unknown:                                          0
   Stable PS point:                                       399081
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399081
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399081
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58556867    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.54947996    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.83773041    
 Time spent in Integrated_CT :    10.1057739    
 Time spent in Virtuals :    603.172607    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.11667919    
 Time spent in N1body_prefactor :   0.842575848    
 Time spent in Adding_alphas_pdf :    10.7657022    
 Time spent in Reweight_scale :    45.3355331    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6448174    
 Time spent in Applying_cuts :    6.21323204    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.0393600    
 Time spent in Other_tasks :    27.2285767    
 Time spent in Total :    791.437683    
Time in seconds: 814



LOG file for integration channel /P0_uxu_emep/all_G1_49, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11997
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          49
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 154693
  with seed                   48
 Ranmar initialization seeds       30233       13713
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435653D+04 0.435653D+04  1.00
 muF1, muF1_reference: 0.435653D+04 0.435653D+04  1.00
 muF2, muF2_reference: 0.435653D+04 0.435653D+04  1.00
 QES,  QES_reference:  0.435653D+04 0.435653D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4781351495203721E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4781351495203721E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7782740134619086E-006           OLP:   -3.7782740134619188E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9457939002974455E-006           OLP:   -7.9457939002974133E-006
  FINITE:
           OLP:   -8.0593053702050733E-005
           BORN:    1.0888830478277265E-003
  MOMENTA (Exyzm): 
           1   2178.2629191903648        0.0000000000000000        0.0000000000000000        2178.2629191903648        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2178.2629191903648       -0.0000000000000000       -0.0000000000000000       -2178.2629191903648        0.0000000000000000     
           3   2178.2629191903648       -2025.4171716795711       -412.58440747552800        687.23266256292140        0.0000000000000000     
           4   2178.2629191903648        2025.4171716795711        412.58440747552800       -687.23266256292140        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7782740134619086E-006           OLP:   -3.7782740134619188E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9457939002974455E-006           OLP:   -7.9457939002974133E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8951E-06  +/-  0.1835E-08  (   0.205 %)
Integral      = 0.5145E-06  +/-  0.2080E-08  (   0.404 %)
Virtual       = 0.1281E-08  +/-  0.1058E-08  (  82.617 %)
Virtual ratio = -.1946E+00  +/-  0.4171E-03  (   0.214 %)
ABS virtual   = 0.4821E-06  +/-  0.8394E-09  (   0.174 %)
Born          = 0.1872E-05  +/-  0.2679E-08  (   0.143 %)
V  2          = 0.1281E-08  +/-  0.1058E-08  (  82.617 %)
B  2          = 0.1872E-05  +/-  0.2679E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8951E-06  +/-  0.1835E-08  (   0.205 %)
accumulated results Integral      = 0.5145E-06  +/-  0.2080E-08  (   0.404 %)
accumulated results Virtual       = 0.1281E-08  +/-  0.1058E-08  (  82.617 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4171E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4821E-06  +/-  0.8394E-09  (   0.174 %)
accumulated results Born          = 0.1872E-05  +/-  0.2679E-08  (   0.143 %)
accumulated results V  2          = 0.1281E-08  +/-  0.1058E-08  (  82.617 %)
accumulated results B  2          = 0.1872E-05  +/-  0.2679E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206382    23880  0.3261E-06  0.1841E-06  0.9679E+00
channel    2 :     1 T   206561    24697  0.3334E-06  0.1995E-06  0.9215E+00
channel    3 :     2 T    73273     8614  0.1172E-06  0.6318E-07  0.9501E+00
channel    4 :     2 T    73657     8343  0.1185E-06  0.6769E-07  0.9766E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9509101575526437E-007  +/-   1.8347204542995746E-009
 Final result:   5.1451615234876565E-007  +/-   2.0795154074068234E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399200
   Stability unknown:                                          0
   Stable PS point:                                       399200
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399200
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399200
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.56119728    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.55260038    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.81259680    
 Time spent in Integrated_CT :    10.1114502    
 Time spent in Virtuals :    605.950439    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.03039074    
 Time spent in N1body_prefactor :   0.832659066    
 Time spent in Adding_alphas_pdf :    10.7140656    
 Time spent in Reweight_scale :    45.2188873    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.8228455    
 Time spent in Applying_cuts :    6.14709759    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.9247742    
 Time spent in Other_tasks :    26.7374268    
 Time spent in Total :    793.416382    
Time in seconds: 822



LOG file for integration channel /P0_uxu_emep/all_G1_50, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       12005
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          50
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 157850
  with seed                   48
 Ranmar initialization seeds       30233       16870
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429489D+04 0.429489D+04  1.00
 muF1, muF1_reference: 0.429489D+04 0.429489D+04  1.00
 muF2, muF2_reference: 0.429489D+04 0.429489D+04  1.00
 QES,  QES_reference:  0.429489D+04 0.429489D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4881784757231257E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4881784757231257E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9636527130872399E-006           OLP:   -3.9636527130872289E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1106798100573394E-006           OLP:   -8.1106798100573902E-006
  FINITE:
           OLP:   -9.0667862371960982E-005
           BORN:    1.1423084274405242E-003
  MOMENTA (Exyzm): 
           1   2147.4450880539725        0.0000000000000000        0.0000000000000000        2147.4450880539725        0.0000000000000000     
           2   2147.4450880539725       -0.0000000000000000       -0.0000000000000000       -2147.4450880539725        0.0000000000000000     
           3   2147.4450880539725       -1514.0185786903476       -1392.1082857717745        617.49710142895913        0.0000000000000000     
           4   2147.4450880539725        1514.0185786903476        1392.1082857717745       -617.49710142895913        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9636527130872399E-006           OLP:   -3.9636527130872289E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.1106798100573377E-006           OLP:   -8.1106798100573902E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8984E-06  +/-  0.1822E-08  (   0.203 %)
Integral      = 0.5199E-06  +/-  0.2069E-08  (   0.398 %)
Virtual       = 0.1797E-08  +/-  0.1065E-08  (  59.261 %)
Virtual ratio = -.1948E+00  +/-  0.4168E-03  (   0.214 %)
ABS virtual   = 0.4839E-06  +/-  0.8459E-09  (   0.175 %)
Born          = 0.1877E-05  +/-  0.2686E-08  (   0.143 %)
V  2          = 0.1797E-08  +/-  0.1065E-08  (  59.261 %)
B  2          = 0.1877E-05  +/-  0.2686E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8984E-06  +/-  0.1822E-08  (   0.203 %)
accumulated results Integral      = 0.5199E-06  +/-  0.2069E-08  (   0.398 %)
accumulated results Virtual       = 0.1797E-08  +/-  0.1065E-08  (  59.261 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4168E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8459E-09  (   0.175 %)
accumulated results Born          = 0.1877E-05  +/-  0.2686E-08  (   0.143 %)
accumulated results V  2          = 0.1797E-08  +/-  0.1065E-08  (  59.261 %)
accumulated results B  2          = 0.1877E-05  +/-  0.2686E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                3                     4
channel    1 :     1 T   205663    23880  0.3274E-06  0.1857E-06  0.9990E+00
channel    2 :     1 T   207557    24697  0.3348E-06  0.2014E-06  0.9384E+00
channel    3 :     2 T    73479     8614  0.1177E-06  0.6427E-07  0.9637E+00
channel    4 :     2 T    73170     8343  0.1186E-06  0.6851E-07  0.9222E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9842517247765902E-007  +/-   1.8224631070142845E-009
 Final result:   5.1987824156129649E-007  +/-   2.0688960764438431E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399512
   Stability unknown:                                          0
   Stable PS point:                                       399512
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399512
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399512
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.57625115    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.52815580    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.79311943    
 Time spent in Integrated_CT :    10.1132812    
 Time spent in Virtuals :    606.497437    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.03508186    
 Time spent in N1body_prefactor :   0.828540802    
 Time spent in Adding_alphas_pdf :    10.8140154    
 Time spent in Reweight_scale :    45.2182312    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.5449848    
 Time spent in Applying_cuts :    6.02970982    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.1595802    
 Time spent in Other_tasks :    26.6204834    
 Time spent in Total :    793.758972    
Time in seconds: 822



LOG file for integration channel /P0_uxu_emep/all_G1_51, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       12006
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          51
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 161007
  with seed                   48
 Ranmar initialization seeds       30233       20027
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423307D+04 0.423307D+04  1.00
 muF1, muF1_reference: 0.423307D+04 0.423307D+04  1.00
 muF2, muF2_reference: 0.423307D+04 0.423307D+04  1.00
 QES,  QES_reference:  0.423307D+04 0.423307D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4984251422634637E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4984251422634637E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
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 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7496052521805553E-006           OLP:   -3.7496052521805557E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9198732374509311E-006           OLP:   -7.9198732374508515E-006
  FINITE:
           OLP:   -7.5911618683430481E-005
           BORN:    1.0806208286106287E-003
  MOMENTA (Exyzm): 
           1   2116.5329618917071        0.0000000000000000        0.0000000000000000        2116.5329618917071        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2116.5329618917071       -0.0000000000000000       -0.0000000000000000       -2116.5329618917071        0.0000000000000000     
           3   2116.5329618917071       -1565.1483000273020       -1253.5612663348252        677.20508654377238        0.0000000000000000     
           4   2116.5329618917071        1565.1483000273020        1253.5612663348252       -677.20508654377238        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7496052521805553E-006           OLP:   -3.7496052521805557E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9198732374509294E-006           OLP:   -7.9198732374508515E-006
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
ABS integral  = 0.8933E-06  +/-  0.1762E-08  (   0.197 %)
Integral      = 0.5156E-06  +/-  0.2014E-08  (   0.391 %)
Virtual       = 0.1323E-08  +/-  0.1063E-08  (  80.338 %)
Virtual ratio = -.1950E+00  +/-  0.4175E-03  (   0.214 %)
ABS virtual   = 0.4827E-06  +/-  0.8448E-09  (   0.175 %)
Born          = 0.1869E-05  +/-  0.2670E-08  (   0.143 %)
V  2          = 0.1323E-08  +/-  0.1063E-08  (  80.338 %)
B  2          = 0.1869E-05  +/-  0.2670E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8933E-06  +/-  0.1762E-08  (   0.197 %)
accumulated results Integral      = 0.5156E-06  +/-  0.2014E-08  (   0.391 %)
accumulated results Virtual       = 0.1323E-08  +/-  0.1063E-08  (  80.338 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4175E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4827E-06  +/-  0.8448E-09  (   0.175 %)
accumulated results Born          = 0.1869E-05  +/-  0.2670E-08  (   0.143 %)
accumulated results V  2          = 0.1323E-08  +/-  0.1063E-08  (  80.338 %)
accumulated results B  2          = 0.1869E-05  +/-  0.2670E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   206439    23880  0.3274E-06  0.1875E-06  0.1000E+01
channel    2 :     1 T   206502    24697  0.3299E-06  0.1977E-06  0.9920E+00
channel    3 :     2 T    73699     8614  0.1183E-06  0.6306E-07  0.9273E+00
channel    4 :     2 T    73233     8343  0.1177E-06  0.6731E-07  0.9778E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9330105044223281E-007  +/-   1.7619628766549019E-009
 Final result:   5.1555460750517634E-007  +/-   2.0137204661161912E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398604
   Stability unknown:                                          0
   Stable PS point:                                       398604
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398604
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398604
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.59766912    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.53494549    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.82794619    
 Time spent in Integrated_CT :    10.1271973    
 Time spent in Virtuals :    604.347046    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.02732754    
 Time spent in N1body_prefactor :   0.817600846    
 Time spent in Adding_alphas_pdf :    10.7351398    
 Time spent in Reweight_scale :    45.5164719    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.9953041    
 Time spent in Applying_cuts :    6.18070984    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.0711403    
 Time spent in Other_tasks :    26.7460938    
 Time spent in Total :    792.524719    
Time in seconds: 820



LOG file for integration channel /P0_uxu_emep/all_G1_52, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       12003
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          52
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 164164
  with seed                   48
 Ranmar initialization seeds       30233       23184
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422003D+04 0.422003D+04  1.00
 muF1, muF1_reference: 0.422003D+04 0.422003D+04  1.00
 muF2, muF2_reference: 0.422003D+04 0.422003D+04  1.00
 QES,  QES_reference:  0.422003D+04 0.422003D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5006076685115664E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5006076685115664E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1312133546901060E-006           OLP:   -4.1312133546901043E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2551107392524675E-006           OLP:   -8.2551107392524116E-006
  FINITE:
           OLP:   -9.9237568327578872E-005
           BORN:    1.1905987159358581E-003
  MOMENTA (Exyzm): 
           1   2110.0168839400403        0.0000000000000000        0.0000000000000000        2110.0168839400403        0.0000000000000000     
           2   2110.0168839400403       -0.0000000000000000       -0.0000000000000000       -2110.0168839400403        0.0000000000000000     
           3   2110.0168839400403       -2017.1637492764410       -272.17527276167249        556.00564746606540        0.0000000000000000     
           4   2110.0168839400403        2017.1637492764410        272.17527276167249       -556.00564746606540        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1312133546901060E-006           OLP:   -4.1312133546901043E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2551107392524692E-006           OLP:   -8.2551107392524116E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8948E-06  +/-  0.1806E-08  (   0.202 %)
Integral      = 0.5128E-06  +/-  0.2055E-08  (   0.401 %)
Virtual       = -.3367E-09  +/-  0.1063E-08  ( 315.655 %)
Virtual ratio = -.1949E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4829E-06  +/-  0.8444E-09  (   0.175 %)
Born          = 0.1873E-05  +/-  0.2682E-08  (   0.143 %)
V  2          = -.3367E-09  +/-  0.1063E-08  ( 315.655 %)
B  2          = 0.1873E-05  +/-  0.2682E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8948E-06  +/-  0.1806E-08  (   0.202 %)
accumulated results Integral      = 0.5128E-06  +/-  0.2055E-08  (   0.401 %)
accumulated results Virtual       = -.3367E-09  +/-  0.1063E-08  ( 315.655 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4829E-06  +/-  0.8444E-09  (   0.175 %)
accumulated results Born          = 0.1873E-05  +/-  0.2682E-08  (   0.143 %)
accumulated results V  2          = -.3367E-09  +/-  0.1063E-08  ( 315.655 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2682E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206217    23880  0.3286E-06  0.1848E-06  0.9639E+00
channel    2 :     1 T   207101    24697  0.3328E-06  0.1998E-06  0.9786E+00
channel    3 :     2 T    73420     8614  0.1162E-06  0.6221E-07  0.9601E+00
channel    4 :     2 T    73135     8343  0.1172E-06  0.6604E-07  0.9389E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9480692821592683E-007  +/-   1.8059880489904594E-009
 Final result:   5.1278073665499839E-007  +/-   2.0547637509626951E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399140
   Stability unknown:                                          0
   Stable PS point:                                       399140
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399140
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399140
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.59085774    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.55592680    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.88555908    
 Time spent in Integrated_CT :    10.1069336    
 Time spent in Virtuals :    603.212463    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.10282516    
 Time spent in N1body_prefactor :   0.830706596    
 Time spent in Adding_alphas_pdf :    10.7083931    
 Time spent in Reweight_scale :    44.8552856    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    18.0995102    
 Time spent in Applying_cuts :    6.12279797    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.8425789    
 Time spent in Other_tasks :    26.9515991    
 Time spent in Total :    790.865417    
Time in seconds: 813



LOG file for integration channel /P0_uxu_emep/all_G1_53, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11996
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          53
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 167321
  with seed                   48
 Ranmar initialization seeds       30233       26341
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429620D+04 0.429620D+04  1.00
 muF1, muF1_reference: 0.429620D+04 0.429620D+04  1.00
 muF2, muF2_reference: 0.429620D+04 0.429620D+04  1.00
 QES,  QES_reference:  0.429620D+04 0.429620D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4879636465351021E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4879636465351035E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9000252713179667E-006           OLP:   -3.9000252713179573E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0546582859168839E-006           OLP:   -8.0546582859167754E-006
  FINITE:
           OLP:   -8.6719339071533594E-005
           BORN:    1.1239712601328184E-003
  MOMENTA (Exyzm): 
           1   2148.0988754563696        0.0000000000000000        0.0000000000000000        2148.0988754563696        0.0000000000000000     
           2   2148.0988754563696       -0.0000000000000000       -0.0000000000000000       -2148.0988754563696        0.0000000000000000     
           3   2148.0988754563696       -1605.5589617272735       -1276.5425888333218        637.92493135860343        0.0000000000000000     
           4   2148.0988754563696        1605.5589617272735        1276.5425888333218       -637.92493135860343        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9000252713179667E-006           OLP:   -3.9000252713179573E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.0546582859168822E-006           OLP:   -8.0546582859167754E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8968E-06  +/-  0.3001E-08  (   0.335 %)
Integral      = 0.5149E-06  +/-  0.3157E-08  (   0.613 %)
Virtual       = 0.1192E-08  +/-  0.1061E-08  (  88.975 %)
Virtual ratio = -.1952E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4832E-06  +/-  0.8415E-09  (   0.174 %)
Born          = 0.1875E-05  +/-  0.2685E-08  (   0.143 %)
V  2          = 0.1192E-08  +/-  0.1061E-08  (  88.975 %)
B  2          = 0.1875E-05  +/-  0.2685E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8968E-06  +/-  0.3001E-08  (   0.335 %)
accumulated results Integral      = 0.5149E-06  +/-  0.3157E-08  (   0.613 %)
accumulated results Virtual       = 0.1192E-08  +/-  0.1061E-08  (  88.975 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8415E-09  (   0.174 %)
accumulated results Born          = 0.1875E-05  +/-  0.2685E-08  (   0.143 %)
accumulated results V  2          = 0.1192E-08  +/-  0.1061E-08  (  88.975 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2685E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205498    23880  0.3272E-06  0.1833E-06  0.4342E+00
channel    2 :     1 T   206884    24697  0.3330E-06  0.2009E-06  0.9592E+00
channel    3 :     2 T    74480     8614  0.1184E-06  0.6433E-07  0.9464E+00
channel    4 :     2 T    73012     8343  0.1182E-06  0.6632E-07  0.9809E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9681843568711132E-007  +/-   3.0006240356082567E-009
 Final result:   5.1487731779796171E-007  +/-   3.1570230389412876E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399534
   Stability unknown:                                          0
   Stable PS point:                                       399534
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399534
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399534
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58845484    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.51120090    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.84000921    
 Time spent in Integrated_CT :    10.1083984    
 Time spent in Virtuals :    606.890076    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.08925819    
 Time spent in N1body_prefactor :   0.829454422    
 Time spent in Adding_alphas_pdf :    10.6895313    
 Time spent in Reweight_scale :    46.1414948    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    18.2838669    
 Time spent in Applying_cuts :    6.24223948    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.8539658    
 Time spent in Other_tasks :    26.9423828    
 Time spent in Total :    796.010254    
Time in seconds: 827



LOG file for integration channel /P0_uxu_emep/all_G1_54, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18179
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          54
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 170478
  with seed                   48
 Ranmar initialization seeds       30233       29498
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.420282D+04 0.420282D+04  1.00
 muF1, muF1_reference: 0.420282D+04 0.420282D+04  1.00
 muF2, muF2_reference: 0.420282D+04 0.420282D+04  1.00
 QES,  QES_reference:  0.420282D+04 0.420282D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5035025256069740E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5035025256069740E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8695392764883837E-006           OLP:   -3.8695392764883887E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0276098819176812E-006           OLP:   -8.0276098819176422E-006
  FINITE:
           OLP:   -8.2512344721302961E-005
           BORN:    1.1151853216731353E-003
  MOMENTA (Exyzm): 
           1   2101.4106829336747        0.0000000000000000        0.0000000000000000        2101.4106829336747        0.0000000000000000     
           2   2101.4106829336747       -0.0000000000000000       -0.0000000000000000       -2101.4106829336747        0.0000000000000000     
           3   2101.4106829336747       -1689.5189728485641       -1076.9886409147239        633.67812497605053        0.0000000000000000     
           4   2101.4106829336747        1689.5189728485641        1076.9886409147239       -633.67812497605053        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8695392764883837E-006           OLP:   -3.8695392764883887E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.0276098819176812E-006           OLP:   -8.0276098819176422E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8958E-06  +/-  0.2100E-08  (   0.234 %)
Integral      = 0.5119E-06  +/-  0.2318E-08  (   0.453 %)
Virtual       = -.6484E-09  +/-  0.1069E-08  ( 164.874 %)
Virtual ratio = -.1954E+00  +/-  0.4178E-03  (   0.214 %)
ABS virtual   = 0.4841E-06  +/-  0.8511E-09  (   0.176 %)
Born          = 0.1875E-05  +/-  0.2693E-08  (   0.144 %)
V  2          = -.6484E-09  +/-  0.1069E-08  ( 164.874 %)
B  2          = 0.1875E-05  +/-  0.2693E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8958E-06  +/-  0.2100E-08  (   0.234 %)
accumulated results Integral      = 0.5119E-06  +/-  0.2318E-08  (   0.453 %)
accumulated results Virtual       = -.6484E-09  +/-  0.1069E-08  ( 164.874 %)
accumulated results Virtual ratio = -.1954E+00  +/-  0.4178E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8511E-09  (   0.176 %)
accumulated results Born          = 0.1875E-05  +/-  0.2693E-08  (   0.144 %)
accumulated results V  2          = -.6484E-09  +/-  0.1069E-08  ( 164.874 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2693E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205439    23880  0.3274E-06  0.1854E-06  0.7263E+00
channel    2 :     1 T   207263    24697  0.3318E-06  0.1975E-06  0.9765E+00
channel    3 :     2 T    73495     8614  0.1184E-06  0.6183E-07  0.9567E+00
channel    4 :     2 T    73673     8343  0.1182E-06  0.6709E-07  0.9883E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9580102867505454E-007  +/-   2.0995426069573466E-009
 Final result:   5.1188662090374930E-007  +/-   2.3180500789967873E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398944
   Stability unknown:                                          0
   Stable PS point:                                       398944
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398944
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398944
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52036965    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.73403740    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.43343115    
 Time spent in Integrated_CT :    9.73425293    
 Time spent in Virtuals :    577.892151    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.47181034    
 Time spent in N1body_prefactor :   0.763419271    
 Time spent in Adding_alphas_pdf :    10.3954992    
 Time spent in Reweight_scale :    44.1970253    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9927702    
 Time spent in Applying_cuts :    5.61257124    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9812622    
 Time spent in Other_tasks :    24.6446533    
 Time spent in Total :    748.373291    
Time in seconds: 768



LOG file for integration channel /P0_uxu_emep/all_G1_55, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18166
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          55
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 173635
  with seed                   48
 Ranmar initialization seeds       30233        2574
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425292D+04 0.425292D+04  1.00
 muF1, muF1_reference: 0.425292D+04 0.425292D+04  1.00
 muF2, muF2_reference: 0.425292D+04 0.425292D+04  1.00
 QES,  QES_reference:  0.425292D+04 0.425292D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4951150599945296E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4951150599945296E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0131940617282496E-006           OLP:   -4.0131940617282505E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1538658560343419E-006           OLP:   -8.1538658560343063E-006
  FINITE:
           OLP:   -9.2696599176489438E-005
           BORN:    1.1565860405806814E-003
  MOMENTA (Exyzm): 
           1   2126.4609241269204        0.0000000000000000        0.0000000000000000        2126.4609241269204        0.0000000000000000     
           2   2126.4609241269204       -0.0000000000000000       -0.0000000000000000       -2126.4609241269204        0.0000000000000000     
           3   2126.4609241269204       -1982.9391827963620       -484.19262876627920        596.10884695499442        0.0000000000000000     
           4   2126.4609241269204        1982.9391827963620        484.19262876627920       -596.10884695499442        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0131940617282496E-006           OLP:   -4.0131940617282505E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1538658560343402E-006           OLP:   -8.1538658560343063E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8960E-06  +/-  0.1824E-08  (   0.204 %)
Integral      = 0.5126E-06  +/-  0.2072E-08  (   0.404 %)
Virtual       = 0.4030E-09  +/-  0.1068E-08  ( 265.134 %)
Virtual ratio = -.1952E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4842E-06  +/-  0.8502E-09  (   0.176 %)
Born          = 0.1876E-05  +/-  0.2693E-08  (   0.144 %)
V  2          = 0.4030E-09  +/-  0.1068E-08  ( 265.134 %)
B  2          = 0.1876E-05  +/-  0.2693E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8960E-06  +/-  0.1824E-08  (   0.204 %)
accumulated results Integral      = 0.5126E-06  +/-  0.2072E-08  (   0.404 %)
accumulated results Virtual       = 0.4030E-09  +/-  0.1068E-08  ( 265.134 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4842E-06  +/-  0.8502E-09  (   0.176 %)
accumulated results Born          = 0.1876E-05  +/-  0.2693E-08  (   0.144 %)
accumulated results V  2          = 0.4030E-09  +/-  0.1068E-08  ( 265.134 %)
accumulated results B  2          = 0.1876E-05  +/-  0.2693E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206078    23880  0.3268E-06  0.1857E-06  0.9616E+00
channel    2 :     1 T   206844    24697  0.3327E-06  0.1987E-06  0.9718E+00
channel    3 :     2 T    73740     8614  0.1183E-06  0.6156E-07  0.9406E+00
channel    4 :     2 T    73211     8343  0.1181E-06  0.6664E-07  0.9584E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9597715673508369E-007  +/-   1.8239336049850613E-009
 Final result:   5.1256694944354164E-007  +/-   2.0715524636532442E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399287
   Stability unknown:                                          0
   Stable PS point:                                       399287
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399287
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399287
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53335333    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65118980    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.38397217    
 Time spent in Integrated_CT :    9.70629883    
 Time spent in Virtuals :    577.291382    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.51078129    
 Time spent in N1body_prefactor :   0.793333471    
 Time spent in Adding_alphas_pdf :    10.4049149    
 Time spent in Reweight_scale :    44.3692627    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.1359730    
 Time spent in Applying_cuts :    5.58316851    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.1161270    
 Time spent in Other_tasks :    24.6918945    
 Time spent in Total :    748.171753    
Time in seconds: 767



LOG file for integration channel /P0_uxu_emep/all_G1_56, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18164
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          56
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 176792
  with seed                   48
 Ranmar initialization seeds       30233        5731
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.418211D+04 0.418211D+04  1.00
 muF1, muF1_reference: 0.418211D+04 0.418211D+04  1.00
 muF2, muF2_reference: 0.418211D+04 0.418211D+04  1.00
 QES,  QES_reference:  0.418211D+04 0.418211D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5070047174282353E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4889426174935672E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0107980083781936E-006           OLP:   -4.0107980083781843E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1517807995414319E-006           OLP:   -8.1517807995413014E-006
  FINITE:
           OLP:   -9.3512488752786298E-005
           BORN:    1.1558955078492621E-003
  MOMENTA (Exyzm): 
           1   2145.1214887722795        0.0000000000000000        0.0000000000000000        2145.1214887722795        0.0000000000000000     
           2   2145.1214887722795       -0.0000000000000000       -0.0000000000000000       -2145.1214887722795        0.0000000000000000     
           3   2145.1214887722795       -1389.3707371661701       -1519.4378773031392        602.08279606335191        0.0000000000000000     
           4   2145.1214887722795        1389.3707371661701        1519.4378773031392       -602.08279606335191        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0107980083781936E-006           OLP:   -4.0107980083781843E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1517807995414302E-006           OLP:   -8.1517807995413014E-006
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8969E-06  +/-  0.1872E-08  (   0.209 %)
Integral      = 0.5175E-06  +/-  0.2113E-08  (   0.408 %)
Virtual       = 0.1255E-08  +/-  0.1062E-08  (  84.589 %)
Virtual ratio = -.1950E+00  +/-  0.4172E-03  (   0.214 %)
ABS virtual   = 0.4835E-06  +/-  0.8426E-09  (   0.174 %)
Born          = 0.1874E-05  +/-  0.2683E-08  (   0.143 %)
V  2          = 0.1255E-08  +/-  0.1062E-08  (  84.589 %)
B  2          = 0.1874E-05  +/-  0.2683E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8969E-06  +/-  0.1872E-08  (   0.209 %)
accumulated results Integral      = 0.5175E-06  +/-  0.2113E-08  (   0.408 %)
accumulated results Virtual       = 0.1255E-08  +/-  0.1062E-08  (  84.589 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4172E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8426E-09  (   0.174 %)
accumulated results Born          = 0.1874E-05  +/-  0.2683E-08  (   0.143 %)
accumulated results V  2          = 0.1255E-08  +/-  0.1062E-08  (  84.589 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2683E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                3                     4
channel    1 :     1 T   206516    23880  0.3278E-06  0.1867E-06  0.9568E+00
channel    2 :     1 T   206591    24697  0.3327E-06  0.1988E-06  0.8959E+00
channel    3 :     2 T    73574     8614  0.1174E-06  0.6243E-07  0.9624E+00
channel    4 :     2 T    73198     8343  0.1190E-06  0.6953E-07  0.9778E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9690709190329842E-007  +/-   1.8719673596024855E-009
 Final result:   5.1747560899583414E-007  +/-   2.1125351326429701E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399174
   Stability unknown:                                          0
   Stable PS point:                                       399174
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399174
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399174
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.55681920    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64620876    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.42731857    
 Time spent in Integrated_CT :    9.57458496    
 Time spent in Virtuals :    576.707275    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.42032719    
 Time spent in N1body_prefactor :   0.809761405    
 Time spent in Adding_alphas_pdf :    10.3403130    
 Time spent in Reweight_scale :    44.4111710    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8559017    
 Time spent in Applying_cuts :    5.63747787    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.8834915    
 Time spent in Other_tasks :    24.7248535    
 Time spent in Total :    746.995544    
Time in seconds: 762



LOG file for integration channel /P0_uxu_emep/all_G1_57, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18170
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          57
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 179949
  with seed                   48
 Ranmar initialization seeds       30233        8888
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432898D+04 0.432898D+04  1.00
 muF1, muF1_reference: 0.432898D+04 0.432898D+04  1.00
 muF2, muF2_reference: 0.432898D+04 0.432898D+04  1.00
 QES,  QES_reference:  0.432898D+04 0.432898D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4826023290773397E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4826023290773397E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6894599511171439E-006           OLP:   -3.6894599511171481E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8651318169091913E-006           OLP:   -7.8651318169092048E-006
  FINITE:
           OLP:   -7.4466352263215994E-005
           BORN:    1.0632871999481496E-003
  MOMENTA (Exyzm): 
           1   2164.4913550333608        0.0000000000000000        0.0000000000000000        2164.4913550333608        0.0000000000000000     
           2   2164.4913550333608       -0.0000000000000000       -0.0000000000000000       -2164.4913550333608        0.0000000000000000     
           3   2164.4913550333608       -2013.2161814909050       -351.38215763926519        713.10168411672441        0.0000000000000000     
           4   2164.4913550333608        2013.2161814909050        351.38215763926519       -713.10168411672441        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6894599511171439E-006           OLP:   -3.6894599511171481E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8651318169091913E-006           OLP:   -7.8651318169092048E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8952E-06  +/-  0.1786E-08  (   0.199 %)
Integral      = 0.5126E-06  +/-  0.2037E-08  (   0.397 %)
Virtual       = -.1459E-08  +/-  0.1064E-08  (  72.946 %)
Virtual ratio = -.1954E+00  +/-  0.4168E-03  (   0.213 %)
ABS virtual   = 0.4833E-06  +/-  0.8460E-09  (   0.175 %)
Born          = 0.1875E-05  +/-  0.2685E-08  (   0.143 %)
V  2          = -.1459E-08  +/-  0.1064E-08  (  72.946 %)
B  2          = 0.1875E-05  +/-  0.2685E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8952E-06  +/-  0.1786E-08  (   0.199 %)
accumulated results Integral      = 0.5126E-06  +/-  0.2037E-08  (   0.397 %)
accumulated results Virtual       = -.1459E-08  +/-  0.1064E-08  (  72.946 %)
accumulated results Virtual ratio = -.1954E+00  +/-  0.4168E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8460E-09  (   0.175 %)
accumulated results Born          = 0.1875E-05  +/-  0.2685E-08  (   0.143 %)
accumulated results V  2          = -.1459E-08  +/-  0.1064E-08  (  72.946 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2685E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205622    23880  0.3248E-06  0.1821E-06  0.9897E+00
channel    2 :     1 T   206819    24697  0.3328E-06  0.1998E-06  0.9836E+00
channel    3 :     2 T    73969     8614  0.1189E-06  0.6230E-07  0.9021E+00
channel    4 :     2 T    73463     8343  0.1187E-06  0.6845E-07  0.9889E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9515141496282337E-007  +/-   1.7857767847530234E-009
 Final result:   5.1264583984095403E-007  +/-   2.0373532796513958E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399114
   Stability unknown:                                          0
   Stable PS point:                                       399114
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399114
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399114
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51437390    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.66993284    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.45816803    
 Time spent in Integrated_CT :    9.68225098    
 Time spent in Virtuals :    578.642761    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.37791443    
 Time spent in N1body_prefactor :   0.777579427    
 Time spent in Adding_alphas_pdf :    10.2637634    
 Time spent in Reweight_scale :    44.1946182    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8905926    
 Time spent in Applying_cuts :    5.63836956    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.7757988    
 Time spent in Other_tasks :    24.6646729    
 Time spent in Total :    748.550781    
Time in seconds: 768



LOG file for integration channel /P0_uxu_emep/all_G1_58, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18181
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          58
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 183106
  with seed                   48
 Ranmar initialization seeds       30233       12045
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.426272D+04 0.426272D+04  1.00
 muF1, muF1_reference: 0.426272D+04 0.426272D+04  1.00
 muF2, muF2_reference: 0.426272D+04 0.426272D+04  1.00
 QES,  QES_reference:  0.426272D+04 0.426272D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4934880802544804E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4934880802544804E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0852645949803235E-006           OLP:   -4.0852645949803193E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2159657501020779E-006           OLP:   -8.2159657501020186E-006
  FINITE:
           OLP:   -9.7486890170439945E-005
           BORN:    1.1773564721657063E-003
  MOMENTA (Exyzm): 
           1   2131.3609261485162        0.0000000000000000        0.0000000000000000        2131.3609261485162        0.0000000000000000     
           2   2131.3609261485162       -0.0000000000000000       -0.0000000000000000       -2131.3609261485162        0.0000000000000000     
           3   2131.3609261485162       -1108.5532077253345       -1727.0379651278436        575.45551536292578        0.0000000000000000     
           4   2131.3609261485162        1108.5532077253345        1727.0379651278436       -575.45551536292578        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0852645949803235E-006           OLP:   -4.0852645949803193E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2159657501020796E-006           OLP:   -8.2159657501020186E-006
 REAL 2: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8945E-06  +/-  0.1798E-08  (   0.201 %)
Integral      = 0.5152E-06  +/-  0.2047E-08  (   0.397 %)
Virtual       = -.2771E-09  +/-  0.1065E-08  ( 384.447 %)
Virtual ratio = -.1950E+00  +/-  0.4168E-03  (   0.214 %)
ABS virtual   = 0.4832E-06  +/-  0.8472E-09  (   0.175 %)
Born          = 0.1874E-05  +/-  0.2694E-08  (   0.144 %)
V  2          = -.2771E-09  +/-  0.1065E-08  ( 384.447 %)
B  2          = 0.1874E-05  +/-  0.2694E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8945E-06  +/-  0.1798E-08  (   0.201 %)
accumulated results Integral      = 0.5152E-06  +/-  0.2047E-08  (   0.397 %)
accumulated results Virtual       = -.2771E-09  +/-  0.1065E-08  ( 384.447 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4168E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8472E-09  (   0.175 %)
accumulated results Born          = 0.1874E-05  +/-  0.2694E-08  (   0.144 %)
accumulated results V  2          = -.2771E-09  +/-  0.1065E-08  ( 384.447 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2694E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206146    23880  0.3267E-06  0.1843E-06  0.1000E+01
channel    2 :     1 T   207208    24697  0.3342E-06  0.2004E-06  0.9143E+00
channel    3 :     2 T    73022     8614  0.1163E-06  0.6206E-07  0.9751E+00
channel    4 :     2 T    73497     8343  0.1173E-06  0.6846E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9449015245022303E-007  +/-   1.7984337440413068E-009
 Final result:   5.1523723349644974E-007  +/-   2.0467785053196889E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399294
   Stability unknown:                                          0
   Stable PS point:                                       399294
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399294
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399294
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51763439    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.60619020    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.34758711    
 Time spent in Integrated_CT :    9.52111816    
 Time spent in Virtuals :    577.782227    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.33840656    
 Time spent in N1body_prefactor :   0.765585303    
 Time spent in Adding_alphas_pdf :    10.2596006    
 Time spent in Reweight_scale :    44.2365112    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9773798    
 Time spent in Applying_cuts :    5.55603600    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.8340950    
 Time spent in Other_tasks :    24.5012207    
 Time spent in Total :    747.243530    
Time in seconds: 763



LOG file for integration channel /P0_uxu_emep/all_G1_59, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18155
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          59
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 186263
  with seed                   48
 Ranmar initialization seeds       30233       15202
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442078D+04 0.442078D+04  1.00
 muF1, muF1_reference: 0.442078D+04 0.442078D+04  1.00
 muF2, muF2_reference: 0.442078D+04 0.442078D+04  1.00
 QES,  QES_reference:  0.442078D+04 0.442078D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4678419244220140E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4678419244220140E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3270296357562743E-006           OLP:   -3.3270296357562697E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5282764051235383E-006           OLP:   -7.5282764051235070E-006
  FINITE:
           OLP:   -5.4481638921468245E-005
           BORN:    9.5883627208818002E-004
  MOMENTA (Exyzm): 
           1   2210.3913308306342        0.0000000000000000        0.0000000000000000        2210.3913308306342        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2210.3913308306342       -0.0000000000000000       -0.0000000000000000       -2210.3913308306342        0.0000000000000000     
           3   2210.3913308306342       -1664.3993228014028       -1169.6419968977200        864.60530229843505        0.0000000000000000     
           4   2210.3913308306342        1664.3993228014028        1169.6419968977200       -864.60530229843505        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3270296357562743E-006           OLP:   -3.3270296357562697E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5282764051235375E-006           OLP:   -7.5282764051235070E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8939E-06  +/-  0.1810E-08  (   0.202 %)
Integral      = 0.5129E-06  +/-  0.2057E-08  (   0.401 %)
Virtual       = 0.1772E-08  +/-  0.1063E-08  (  60.023 %)
Virtual ratio = -.1942E+00  +/-  0.4178E-03  (   0.215 %)
ABS virtual   = 0.4835E-06  +/-  0.8447E-09  (   0.175 %)
Born          = 0.1873E-05  +/-  0.2679E-08  (   0.143 %)
V  2          = 0.1772E-08  +/-  0.1063E-08  (  60.023 %)
B  2          = 0.1873E-05  +/-  0.2679E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8939E-06  +/-  0.1810E-08  (   0.202 %)
accumulated results Integral      = 0.5129E-06  +/-  0.2057E-08  (   0.401 %)
accumulated results Virtual       = 0.1772E-08  +/-  0.1063E-08  (  60.023 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4178E-03  (   0.215 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8447E-09  (   0.175 %)
accumulated results Born          = 0.1873E-05  +/-  0.2679E-08  (   0.143 %)
accumulated results V  2          = 0.1772E-08  +/-  0.1063E-08  (  60.023 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2679E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206414    23880  0.3272E-06  0.1852E-06  0.9643E+00
channel    2 :     1 T   206578    24697  0.3309E-06  0.1983E-06  0.9709E+00
channel    3 :     2 T    73611     8614  0.1173E-06  0.6170E-07  0.9442E+00
channel    4 :     2 T    73270     8343  0.1185E-06  0.6771E-07  0.9638E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9390840989968869E-007  +/-   1.8095586882968137E-009
 Final result:   5.1289948415907769E-007  +/-   2.0571523270599858E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399013
   Stability unknown:                                          0
   Stable PS point:                                       399013
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399013
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399013
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51997495    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.59783745    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.39998388    
 Time spent in Integrated_CT :    9.59899902    
 Time spent in Virtuals :    578.524170    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.36450768    
 Time spent in N1body_prefactor :   0.768016875    
 Time spent in Adding_alphas_pdf :    10.3222847    
 Time spent in Reweight_scale :    44.2504044    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9301853    
 Time spent in Applying_cuts :    5.60630989    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9074783    
 Time spent in Other_tasks :    24.5741577    
 Time spent in Total :    748.364319    
Time in seconds: 768



LOG file for integration channel /P0_uxu_emep/all_G1_60, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18175
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          60
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 189420
  with seed                   48
 Ranmar initialization seeds       30233       18359
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.428278D+04 0.428278D+04  1.00
 muF1, muF1_reference: 0.428278D+04 0.428278D+04  1.00
 muF2, muF2_reference: 0.428278D+04 0.428278D+04  1.00
 QES,  QES_reference:  0.428278D+04 0.428278D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4901712233832893E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4901712233832893E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8921113165260849E-006           OLP:   -3.8921113165260874E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0476488192233262E-006           OLP:   -8.0476488192233075E-006
  FINITE:
           OLP:   -8.5893492757201090E-005
           BORN:    1.1216904908758903E-003
  MOMENTA (Exyzm): 
           1   2141.3917761372609        0.0000000000000000        0.0000000000000000        2141.3917761372609        0.0000000000000000     
           2   2141.3917761372609       -0.0000000000000000       -0.0000000000000000       -2141.3917761372609        0.0000000000000000     
           3   2141.3917761372609       -1893.1171855035293       -770.72929265702601        638.46880761701107        0.0000000000000000     
           4   2141.3917761372609        1893.1171855035293        770.72929265702601       -638.46880761701107        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8921113165260849E-006           OLP:   -3.8921113165260874E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0476488192233245E-006           OLP:   -8.0476488192233075E-006
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8929E-06  +/-  0.1786E-08  (   0.200 %)
Integral      = 0.5161E-06  +/-  0.2034E-08  (   0.394 %)
Virtual       = 0.1444E-08  +/-  0.1065E-08  (  73.719 %)
Virtual ratio = -.1948E+00  +/-  0.4170E-03  (   0.214 %)
ABS virtual   = 0.4834E-06  +/-  0.8464E-09  (   0.175 %)
Born          = 0.1874E-05  +/-  0.2693E-08  (   0.144 %)
V  2          = 0.1444E-08  +/-  0.1065E-08  (  73.719 %)
B  2          = 0.1874E-05  +/-  0.2693E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8929E-06  +/-  0.1786E-08  (   0.200 %)
accumulated results Integral      = 0.5161E-06  +/-  0.2034E-08  (   0.394 %)
accumulated results Virtual       = 0.1444E-08  +/-  0.1065E-08  (  73.719 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4170E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8464E-09  (   0.175 %)
accumulated results Born          = 0.1874E-05  +/-  0.2693E-08  (   0.144 %)
accumulated results V  2          = 0.1444E-08  +/-  0.1065E-08  (  73.719 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2693E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206190    23880  0.3265E-06  0.1857E-06  0.1000E+01
channel    2 :     1 T   206697    24697  0.3308E-06  0.1998E-06  0.9830E+00
channel    3 :     2 T    73671     8614  0.1168E-06  0.6259E-07  0.9641E+00
channel    4 :     2 T    73312     8343  0.1189E-06  0.6802E-07  0.8888E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9286485756130624E-007  +/-   1.7858184096986534E-009
 Final result:   5.1610624156069696E-007  +/-   2.0340344779083770E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398874
   Stability unknown:                                          0
   Stable PS point:                                       398874
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398874
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398874
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52920246    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.66253424    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.41828442    
 Time spent in Integrated_CT :    9.65026855    
 Time spent in Virtuals :    575.829712    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.42640591    
 Time spent in N1body_prefactor :   0.774758697    
 Time spent in Adding_alphas_pdf :    10.3754005    
 Time spent in Reweight_scale :    44.3611374    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.2557812    
 Time spent in Applying_cuts :    5.54331112    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.1463776    
 Time spent in Other_tasks :    24.5093994    
 Time spent in Total :    746.482666    
Time in seconds: 760



LOG file for integration channel /P0_uxu_emep/all_G1_61, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18150
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          61
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 192577
  with seed                   48
 Ranmar initialization seeds       30233       21516
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438348D+04 0.438348D+04  1.00
 muF1, muF1_reference: 0.438348D+04 0.438348D+04  1.00
 muF2, muF2_reference: 0.438348D+04 0.438348D+04  1.00
 QES,  QES_reference:  0.438348D+04 0.438348D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4737955025405645E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4737955025405645E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.2111569497640441E-006           OLP:   -4.2111569497640398E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3222955174518240E-006           OLP:   -8.3222955174518307E-006
  FINITE:
           OLP:   -1.0879250421146308E-004
           BORN:    1.2136381315918587E-003
  MOMENTA (Exyzm): 
           1   2191.7404999663977        0.0000000000000000        0.0000000000000000        2191.7404999663977        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2191.7404999663977       -0.0000000000000000       -0.0000000000000000       -2191.7404999663977        0.0000000000000000     
           3   2191.7404999663977       -2011.3999134096823       -672.29882978388946        553.18269224523851        0.0000000000000000     
           4   2191.7404999663977        2011.3999134096823        672.29882978388946       -553.18269224523851        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.2111569497640441E-006           OLP:   -4.2111569497640398E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3222955174518240E-006           OLP:   -8.3222955174518307E-006
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8979E-06  +/-  0.1810E-08  (   0.202 %)
Integral      = 0.5152E-06  +/-  0.2059E-08  (   0.400 %)
Virtual       = -.7396E-10  +/-  0.1072E-08  ( ******* %)
Virtual ratio = -.1950E+00  +/-  0.4168E-03  (   0.214 %)
ABS virtual   = 0.4848E-06  +/-  0.8537E-09  (   0.176 %)
Born          = 0.1879E-05  +/-  0.2706E-08  (   0.144 %)
V  2          = -.7396E-10  +/-  0.1072E-08  ( ******* %)
B  2          = 0.1879E-05  +/-  0.2706E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8979E-06  +/-  0.1810E-08  (   0.202 %)
accumulated results Integral      = 0.5152E-06  +/-  0.2059E-08  (   0.400 %)
accumulated results Virtual       = -.7396E-10  +/-  0.1072E-08  ( ******* %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4168E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4848E-06  +/-  0.8537E-09  (   0.176 %)
accumulated results Born          = 0.1879E-05  +/-  0.2706E-08  (   0.144 %)
accumulated results V  2          = -.7396E-10  +/-  0.1072E-08  ( ******* %)
accumulated results B  2          = 0.1879E-05  +/-  0.2706E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206230    23880  0.3286E-06  0.1860E-06  0.1000E+01
channel    2 :     1 T   206627    24697  0.3321E-06  0.2000E-06  0.9527E+00
channel    3 :     2 T    73705     8614  0.1180E-06  0.6154E-07  0.9272E+00
channel    4 :     2 T    73311     8343  0.1192E-06  0.6765E-07  0.9759E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9786203306595023E-007  +/-   1.8095547879436485E-009
 Final result:   5.1518463463403424E-007  +/-   2.0592033072729031E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399395
   Stability unknown:                                          0
   Stable PS point:                                       399395
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399395
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399395
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51959121    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64794540    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.48305893    
 Time spent in Integrated_CT :    9.67602539    
 Time spent in Virtuals :    577.119263    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.45770454    
 Time spent in N1body_prefactor :   0.776143193    
 Time spent in Adding_alphas_pdf :    10.2987795    
 Time spent in Reweight_scale :    44.3414459    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8017693    
 Time spent in Applying_cuts :    5.55625343    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.2314911    
 Time spent in Other_tasks :    24.4583740    
 Time spent in Total :    747.367798    
Time in seconds: 765



LOG file for integration channel /P0_uxu_emep/all_G1_62, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18160
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          62
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 195734
  with seed                   48
 Ranmar initialization seeds       30233       24673
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440130D+04 0.440130D+04  1.00
 muF1, muF1_reference: 0.440130D+04 0.440130D+04  1.00
 muF2, muF2_reference: 0.440130D+04 0.440130D+04  1.00
 QES,  QES_reference:  0.440130D+04 0.440130D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4709439797739877E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4983425163762996E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9374165774485515E-006           OLP:   -3.9374165774485549E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0876635563127940E-006           OLP:   -8.0876635563127873E-006
  FINITE:
           OLP:   -8.7474339698758472E-005
           BORN:    1.1347472809393204E-003
  MOMENTA (Exyzm): 
           1   2116.7801143662068        0.0000000000000000        0.0000000000000000        2116.7801143662068        0.0000000000000000     
           2   2116.7801143662068       -0.0000000000000000       -0.0000000000000000       -2116.7801143662068        0.0000000000000000     
           3   2116.7801143662068       -1339.9519579819116       -1518.1462204213090        616.86210476665519        0.0000000000000000     
           4   2116.7801143662068        1339.9519579819116        1518.1462204213090       -616.86210476665519        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9374165774485515E-006           OLP:   -3.9374165774485549E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0876635563127940E-006           OLP:   -8.0876635563127873E-006
 REAL 2: keeping split order            1
ABS integral  = 0.8952E-06  +/-  0.1826E-08  (   0.204 %)
Integral      = 0.5139E-06  +/-  0.2072E-08  (   0.403 %)
Virtual       = 0.1259E-08  +/-  0.1064E-08  (  84.538 %)
Virtual ratio = -.1947E+00  +/-  0.4167E-03  (   0.214 %)
ABS virtual   = 0.4827E-06  +/-  0.8465E-09  (   0.175 %)
Born          = 0.1872E-05  +/-  0.2685E-08  (   0.143 %)
V  2          = 0.1259E-08  +/-  0.1064E-08  (  84.538 %)
B  2          = 0.1872E-05  +/-  0.2685E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8952E-06  +/-  0.1826E-08  (   0.204 %)
accumulated results Integral      = 0.5139E-06  +/-  0.2072E-08  (   0.403 %)
accumulated results Virtual       = 0.1259E-08  +/-  0.1064E-08  (  84.538 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4167E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4827E-06  +/-  0.8465E-09  (   0.175 %)
accumulated results Born          = 0.1872E-05  +/-  0.2685E-08  (   0.143 %)
accumulated results V  2          = 0.1259E-08  +/-  0.1064E-08  (  84.538 %)
accumulated results B  2          = 0.1872E-05  +/-  0.2685E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206276    23880  0.3277E-06  0.1836E-06  0.9435E+00
channel    2 :     1 T   206839    24697  0.3316E-06  0.1985E-06  0.9568E+00
channel    3 :     2 T    73410     8614  0.1174E-06  0.6339E-07  0.9680E+00
channel    4 :     2 T    73351     8343  0.1185E-06  0.6843E-07  0.9839E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9523994399601161E-007  +/-   1.8263168981487679E-009
 Final result:   5.1390944213628931E-007  +/-   2.0724886717343937E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399088
   Stability unknown:                                          0
   Stable PS point:                                       399088
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399088
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399088
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52102804    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.66790581    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.44560766    
 Time spent in Integrated_CT :    9.63146973    
 Time spent in Virtuals :    577.696350    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.36719131    
 Time spent in N1body_prefactor :   0.751865089    
 Time spent in Adding_alphas_pdf :    10.2259321    
 Time spent in Reweight_scale :    44.0024872    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8497143    
 Time spent in Applying_cuts :    5.58225727    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.2934265    
 Time spent in Other_tasks :    24.4445801    
 Time spent in Total :    747.479858    
Time in seconds: 765



LOG file for integration channel /P0_uxu_emep/all_G1_63, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18167
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          63
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 198891
  with seed                   48
 Ranmar initialization seeds       30233       27830
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433729D+04 0.433729D+04  1.00
 muF1, muF1_reference: 0.433729D+04 0.433729D+04  1.00
 muF2, muF2_reference: 0.433729D+04 0.433729D+04  1.00
 QES,  QES_reference:  0.433729D+04 0.433729D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4812510289079009E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4812510289079009E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4918180754260099E-006           OLP:   -3.4918180754260133E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6825515462642626E-006           OLP:   -7.6825515462642321E-006
  FINITE:
           OLP:   -6.2642530927531758E-005
           BORN:    1.0063276233758401E-003
  MOMENTA (Exyzm): 
           1   2168.6463098970253        0.0000000000000000        0.0000000000000000        2168.6463098970253        0.0000000000000000     
           2   2168.6463098970253       -0.0000000000000000       -0.0000000000000000       -2168.6463098970253        0.0000000000000000     
           3   2168.6463098970253       -1820.3906001995670       -879.03594414005136        785.17557848219758        0.0000000000000000     
           4   2168.6463098970253        1820.3906001995670        879.03594414005136       -785.17557848219758        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4918180754260099E-006           OLP:   -3.4918180754260133E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6825515462642609E-006           OLP:   -7.6825515462642321E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
ABS integral  = 0.8926E-06  +/-  0.1760E-08  (   0.197 %)
Integral      = 0.5124E-06  +/-  0.2013E-08  (   0.393 %)
Virtual       = -.5732E-09  +/-  0.1056E-08  ( 184.221 %)
Virtual ratio = -.1953E+00  +/-  0.4169E-03  (   0.213 %)
ABS virtual   = 0.4810E-06  +/-  0.8377E-09  (   0.174 %)
Born          = 0.1868E-05  +/-  0.2673E-08  (   0.143 %)
V  2          = -.5732E-09  +/-  0.1056E-08  ( 184.221 %)
B  2          = 0.1868E-05  +/-  0.2673E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8926E-06  +/-  0.1760E-08  (   0.197 %)
accumulated results Integral      = 0.5124E-06  +/-  0.2013E-08  (   0.393 %)
accumulated results Virtual       = -.5732E-09  +/-  0.1056E-08  ( 184.221 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4169E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4810E-06  +/-  0.8377E-09  (   0.174 %)
accumulated results Born          = 0.1868E-05  +/-  0.2673E-08  (   0.143 %)
accumulated results V  2          = -.5732E-09  +/-  0.1056E-08  ( 184.221 %)
accumulated results B  2          = 0.1868E-05  +/-  0.2673E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206299    23880  0.3262E-06  0.1859E-06  0.1000E+01
channel    2 :     1 T   206135    24697  0.3306E-06  0.1976E-06  0.9641E+00
channel    3 :     2 T    73993     8614  0.1184E-06  0.6208E-07  0.9351E+00
channel    4 :     2 T    73445     8343  0.1174E-06  0.6689E-07  0.9886E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9262441051287206E-007  +/-   1.7604086179835584E-009
 Final result:   5.1244872976695107E-007  +/-   2.0132411340962615E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398645
   Stability unknown:                                          0
   Stable PS point:                                       398645
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398645
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398645
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53591084    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.70428753    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.51946163    
 Time spent in Integrated_CT :    9.63604736    
 Time spent in Virtuals :    577.216919    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.56369591    
 Time spent in N1body_prefactor :   0.775293767    
 Time spent in Adding_alphas_pdf :    10.2820854    
 Time spent in Reweight_scale :    44.1622734    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0193796    
 Time spent in Applying_cuts :    5.59701490    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0926743    
 Time spent in Other_tasks :    24.4880981    
 Time spent in Total :    747.593140    
Time in seconds: 767



LOG file for integration channel /P0_uxu_emep/all_G1_64, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18151
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          64
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 202048
  with seed                   48
 Ranmar initialization seeds       30233         906
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441079D+04 0.441079D+04  1.00
 muF1, muF1_reference: 0.441079D+04 0.441079D+04  1.00
 muF2, muF2_reference: 0.441079D+04 0.441079D+04  1.00
 QES,  QES_reference:  0.441079D+04 0.441079D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4694302532451004E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4694302532451004E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4890825206616055E-006           OLP:   -3.4890825206616012E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6800028790915754E-006           OLP:   -7.6800028790914907E-006
  FINITE:
           OLP:   -6.4021371220414979E-005
           BORN:    1.0055392477316303E-003
  MOMENTA (Exyzm): 
           1   2205.3970950910216        0.0000000000000000        0.0000000000000000        2205.3970950910216        0.0000000000000000     
           2   2205.3970950910216       -0.0000000000000000       -0.0000000000000000       -2205.3970950910216        0.0000000000000000     
           3   2205.3970950910216       -1713.7835765013908       -1134.6806579853398        799.51360485233477        0.0000000000000000     
           4   2205.3970950910216        1713.7835765013908        1134.6806579853398       -799.51360485233477        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4890825206616055E-006           OLP:   -3.4890825206616012E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6800028790915771E-006           OLP:   -7.6800028790914907E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9014E-06  +/-  0.2506E-08  (   0.278 %)
Integral      = 0.5149E-06  +/-  0.2694E-08  (   0.523 %)
Virtual       = 0.1346E-08  +/-  0.1066E-08  (  79.170 %)
Virtual ratio = -.1944E+00  +/-  0.4172E-03  (   0.215 %)
ABS virtual   = 0.4835E-06  +/-  0.8476E-09  (   0.175 %)
Born          = 0.1875E-05  +/-  0.2688E-08  (   0.143 %)
V  2          = 0.1346E-08  +/-  0.1066E-08  (  79.170 %)
B  2          = 0.1875E-05  +/-  0.2688E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9014E-06  +/-  0.2506E-08  (   0.278 %)
accumulated results Integral      = 0.5149E-06  +/-  0.2694E-08  (   0.523 %)
accumulated results Virtual       = 0.1346E-08  +/-  0.1066E-08  (  79.170 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4172E-03  (   0.215 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8476E-09  (   0.175 %)
accumulated results Born          = 0.1875E-05  +/-  0.2688E-08  (   0.143 %)
accumulated results V  2          = 0.1346E-08  +/-  0.1066E-08  (  79.170 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2688E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205926    23880  0.3290E-06  0.1837E-06  0.7855E+00
channel    2 :     1 T   206491    24697  0.3325E-06  0.2002E-06  0.8662E+00
channel    3 :     2 T    73937     8614  0.1209E-06  0.6375E-07  0.4740E+00
channel    4 :     2 T    73523     8343  0.1191E-06  0.6717E-07  0.9377E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0137908947865315E-007  +/-   2.5060478116638325E-009
 Final result:   5.1487571088276357E-007  +/-   2.6940631707978090E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399025
   Stability unknown:                                          0
   Stable PS point:                                       399025
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399025
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399025
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50698900    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.69607544    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.38227129    
 Time spent in Integrated_CT :    9.52838135    
 Time spent in Virtuals :    577.902222    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.30555153    
 Time spent in N1body_prefactor :   0.772958279    
 Time spent in Adding_alphas_pdf :    10.3394775    
 Time spent in Reweight_scale :    44.1694260    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7756548    
 Time spent in Applying_cuts :    5.57898808    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0590019    
 Time spent in Other_tasks :    24.4111328    
 Time spent in Total :    747.428101    
Time in seconds: 763



LOG file for integration channel /P0_uxu_emep/all_G1_65, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18149
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          65
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 205205
  with seed                   48
 Ranmar initialization seeds       30233        4063
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434887D+04 0.434887D+04  1.00
 muF1, muF1_reference: 0.434887D+04 0.434887D+04  1.00
 muF2, muF2_reference: 0.434887D+04 0.434887D+04  1.00
 QES,  QES_reference:  0.434887D+04 0.434887D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4793739945697740E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4793739945697740E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9114836774430810E-006           OLP:   -3.9114836774430699E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0647864507901818E-006           OLP:   -8.0647864507901734E-006
  FINITE:
           OLP:   -8.8741906492937500E-005
           BORN:    1.1272735257017814E-003
  MOMENTA (Exyzm): 
           1   2174.4334248450750        0.0000000000000000        0.0000000000000000        2174.4334248450750        0.0000000000000000     
           2   2174.4334248450750       -0.0000000000000000       -0.0000000000000000       -2174.4334248450750        0.0000000000000000     
           3   2174.4334248450750       -2066.3690418351512       -214.66544669239050        642.02682811944737        0.0000000000000000     
           4   2174.4334248450750        2066.3690418351512        214.66544669239050       -642.02682811944737        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9114836774430810E-006           OLP:   -3.9114836774430699E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0647864507901818E-006           OLP:   -8.0647864507901734E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.1129304766654968E-006           4
ABS integral  = 0.8955E-06  +/-  0.1873E-08  (   0.209 %)
Integral      = 0.5134E-06  +/-  0.2114E-08  (   0.412 %)
Virtual       = -.1894E-08  +/-  0.1061E-08  (  56.033 %)
Virtual ratio = -.1956E+00  +/-  0.4166E-03  (   0.213 %)
ABS virtual   = 0.4830E-06  +/-  0.8424E-09  (   0.174 %)
Born          = 0.1874E-05  +/-  0.2679E-08  (   0.143 %)
V  2          = -.1894E-08  +/-  0.1061E-08  (  56.033 %)
B  2          = 0.1874E-05  +/-  0.2679E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8955E-06  +/-  0.1873E-08  (   0.209 %)
accumulated results Integral      = 0.5134E-06  +/-  0.2114E-08  (   0.412 %)
accumulated results Virtual       = -.1894E-08  +/-  0.1061E-08  (  56.033 %)
accumulated results Virtual ratio = -.1956E+00  +/-  0.4166E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8424E-09  (   0.174 %)
accumulated results Born          = 0.1874E-05  +/-  0.2679E-08  (   0.143 %)
accumulated results V  2          = -.1894E-08  +/-  0.1061E-08  (  56.033 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2679E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206466    23880  0.3288E-06  0.1848E-06  0.9787E+00
channel    2 :     1 T   206952    24697  0.3310E-06  0.1986E-06  0.8876E+00
channel    3 :     2 T    73502     8614  0.1183E-06  0.6232E-07  0.9146E+00
channel    4 :     2 T    72956     8343  0.1174E-06  0.6771E-07  0.9959E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9545389868635640E-007  +/-   1.8726694997413892E-009
 Final result:   5.1337029376823490E-007  +/-   2.1138449575802494E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399295
   Stability unknown:                                          0
   Stable PS point:                                       399295
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399295
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399295
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53127861    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.77200794    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.73957682    
 Time spent in Integrated_CT :    9.91766357    
 Time spent in Virtuals :    576.841553    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.41144753    
 Time spent in N1body_prefactor :   0.786028981    
 Time spent in Adding_alphas_pdf :    10.2042828    
 Time spent in Reweight_scale :    44.3250084    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8215113    
 Time spent in Applying_cuts :    5.56837368    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    41.1466560    
 Time spent in Other_tasks :    24.6497803    
 Time spent in Total :    750.715149    
Time in seconds: 772



LOG file for integration channel /P0_uxu_emep/all_G1_66, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18180
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          66
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 208362
  with seed                   48
 Ranmar initialization seeds       30233        7220
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430234D+04 0.430234D+04  1.00
 muF1, muF1_reference: 0.430234D+04 0.430234D+04  1.00
 muF2, muF2_reference: 0.430234D+04 0.430234D+04  1.00
 QES,  QES_reference:  0.430234D+04 0.430234D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4869557865787792E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4869557865787792E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
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 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8602073148083515E-006           OLP:   -3.8602073148083532E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0192887595162242E-006           OLP:   -8.0192887595162598E-006
  FINITE:
           OLP:   -8.4389711739580909E-005
           BORN:    1.1124958886568532E-003
  MOMENTA (Exyzm): 
           1   2151.1692274656666        0.0000000000000000        0.0000000000000000        2151.1692274656666        0.0000000000000000     
           2   2151.1692274656666       -0.0000000000000000       -0.0000000000000000       -2151.1692274656666        0.0000000000000000     
           3   2151.1692274656666       -1992.7214894258473       -481.52223141501815        651.71040457304900        0.0000000000000000     
           4   2151.1692274656666        1992.7214894258473        481.52223141501815       -651.71040457304900        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8602073148083515E-006           OLP:   -3.8602073148083532E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0192887595162226E-006           OLP:   -8.0192887595162598E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8949E-06  +/-  0.1900E-08  (   0.212 %)
Integral      = 0.5139E-06  +/-  0.2137E-08  (   0.416 %)
Virtual       = 0.1142E-09  +/-  0.1067E-08  ( 934.381 %)
Virtual ratio = -.1949E+00  +/-  0.4173E-03  (   0.214 %)
ABS virtual   = 0.4838E-06  +/-  0.8492E-09  (   0.176 %)
Born          = 0.1875E-05  +/-  0.2692E-08  (   0.144 %)
V  2          = 0.1142E-09  +/-  0.1067E-08  ( 934.381 %)
B  2          = 0.1875E-05  +/-  0.2692E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8949E-06  +/-  0.1900E-08  (   0.212 %)
accumulated results Integral      = 0.5139E-06  +/-  0.2137E-08  (   0.416 %)
accumulated results Virtual       = 0.1142E-09  +/-  0.1067E-08  ( 934.381 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4173E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8492E-09  (   0.176 %)
accumulated results Born          = 0.1875E-05  +/-  0.2692E-08  (   0.144 %)
accumulated results V  2          = 0.1142E-09  +/-  0.1067E-08  ( 934.381 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2692E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205507    23880  0.3286E-06  0.1839E-06  0.1000E+01
channel    2 :     1 T   207029    24697  0.3307E-06  0.2001E-06  0.9740E+00
channel    3 :     2 T    74030     8614  0.1181E-06  0.6178E-07  0.7019E+00
channel    4 :     2 T    73309     8343  0.1176E-06  0.6808E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9493247021415930E-007  +/-   1.8995150857765369E-009
 Final result:   5.1389048652039806E-007  +/-   2.1370505618746148E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398960
   Stability unknown:                                          0
   Stable PS point:                                       398960
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398960
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398960
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49967408    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.60667133    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.43473721    
 Time spent in Integrated_CT :    9.60906982    
 Time spent in Virtuals :    578.525330    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.33955956    
 Time spent in N1body_prefactor :   0.763550043    
 Time spent in Adding_alphas_pdf :    10.1926689    
 Time spent in Reweight_scale :    43.9104652    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.1401405    
 Time spent in Applying_cuts :    5.57630825    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.1086693    
 Time spent in Other_tasks :    24.5682983    
 Time spent in Total :    749.275085    
Time in seconds: 770



LOG file for integration channel /P0_uxu_emep/all_G1_67, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18163
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          67
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 211519
  with seed                   48
 Ranmar initialization seeds       30233       10377
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419773D+04 0.419773D+04  1.00
 muF1, muF1_reference: 0.419773D+04 0.419773D+04  1.00
 muF2, muF2_reference: 0.419773D+04 0.419773D+04  1.00
 QES,  QES_reference:  0.419773D+04 0.419773D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5043621979359640E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5043621979359640E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0566637617996768E-006           OLP:   -4.0566637617996827E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1914355954533520E-006           OLP:   -8.1914355954532589E-006
  FINITE:
           OLP:   -9.3964260302282411E-005
           BORN:    1.1691138295481531E-003
  MOMENTA (Exyzm): 
           1   2098.8629446703853        0.0000000000000000        0.0000000000000000        2098.8629446703853        0.0000000000000000     
           2   2098.8629446703853       -0.0000000000000000       -0.0000000000000000       -2098.8629446703853        0.0000000000000000     
           3   2098.8629446703853       -1331.0628710163874       -1517.4298847876291        575.24241730374479        0.0000000000000000     
           4   2098.8629446703853        1331.0628710163874        1517.4298847876291       -575.24241730374479        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0566637617996768E-006           OLP:   -4.0566637617996827E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1914355954533520E-006           OLP:   -8.1914355954532589E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8950E-06  +/-  0.1842E-08  (   0.206 %)
Integral      = 0.5160E-06  +/-  0.2085E-08  (   0.404 %)
Virtual       = 0.1143E-08  +/-  0.1066E-08  (  93.267 %)
Virtual ratio = -.1950E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4834E-06  +/-  0.8477E-09  (   0.175 %)
Born          = 0.1875E-05  +/-  0.2692E-08  (   0.144 %)
V  2          = 0.1143E-08  +/-  0.1066E-08  (  93.267 %)
B  2          = 0.1875E-05  +/-  0.2692E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8950E-06  +/-  0.1842E-08  (   0.206 %)
accumulated results Integral      = 0.5160E-06  +/-  0.2085E-08  (   0.404 %)
accumulated results Virtual       = 0.1143E-08  +/-  0.1066E-08  (  93.267 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8477E-09  (   0.175 %)
accumulated results Born          = 0.1875E-05  +/-  0.2692E-08  (   0.144 %)
accumulated results V  2          = 0.1143E-08  +/-  0.1066E-08  (  93.267 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2692E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206100    23880  0.3267E-06  0.1846E-06  0.9424E+00
channel    2 :     1 T   206448    24697  0.3317E-06  0.2005E-06  0.9644E+00
channel    3 :     2 T    73761     8614  0.1184E-06  0.6203E-07  0.9116E+00
channel    4 :     2 T    73565     8343  0.1182E-06  0.6875E-07  0.9907E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9504297058503277E-007  +/-   1.8415189335407676E-009
 Final result:   5.1595218598875288E-007  +/-   2.0848454297547931E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399404
   Stability unknown:                                          0
   Stable PS point:                                       399404
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399404
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399404
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51626694    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65440512    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.39766645    
 Time spent in Integrated_CT :    9.59472656    
 Time spent in Virtuals :    575.964844    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.46812820    
 Time spent in N1body_prefactor :   0.767537892    
 Time spent in Adding_alphas_pdf :    10.4244547    
 Time spent in Reweight_scale :    44.1448898    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9554167    
 Time spent in Applying_cuts :    5.54089642    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9919319    
 Time spent in Other_tasks :    24.4461670    
 Time spent in Total :    745.867371    
Time in seconds: 758



LOG file for integration channel /P0_uxu_emep/all_G1_68, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18169
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          68
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 214676
  with seed                   48
 Ranmar initialization seeds       30233       13534
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437166D+04 0.437166D+04  1.00
 muF1, muF1_reference: 0.437166D+04 0.437166D+04  1.00
 muF2, muF2_reference: 0.437166D+04 0.437166D+04  1.00
 QES,  QES_reference:  0.437166D+04 0.437166D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4756949696737809E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4756949696737809E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6742494795355839E-006           OLP:   -3.6742494795355882E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8512192464073128E-006           OLP:   -7.8512192464073229E-006
  FINITE:
           OLP:   -7.4500442072623606E-005
           BORN:    1.0589036045298146E-003
  MOMENTA (Exyzm): 
           1   2185.8292725652914        0.0000000000000000        0.0000000000000000        2185.8292725652914        0.0000000000000000     
           2   2185.8292725652914       -0.0000000000000000       -0.0000000000000000       -2185.8292725652914        0.0000000000000000     
           3   2185.8292725652914       -1684.5924196108524       -1189.0028404320399        725.44485251293008        0.0000000000000000     
           4   2185.8292725652914        1684.5924196108524        1189.0028404320399       -725.44485251293008        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6742494795355839E-006           OLP:   -3.6742494795355882E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8512192464073128E-006           OLP:   -7.8512192464073229E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8952E-06  +/-  0.1852E-08  (   0.207 %)
Integral      = 0.5129E-06  +/-  0.2095E-08  (   0.409 %)
Virtual       = 0.1754E-08  +/-  0.1066E-08  (  60.767 %)
Virtual ratio = -.1944E+00  +/-  0.4170E-03  (   0.214 %)
ABS virtual   = 0.4838E-06  +/-  0.8472E-09  (   0.175 %)
Born          = 0.1875E-05  +/-  0.2688E-08  (   0.143 %)
V  2          = 0.1754E-08  +/-  0.1066E-08  (  60.767 %)
B  2          = 0.1875E-05  +/-  0.2688E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8952E-06  +/-  0.1852E-08  (   0.207 %)
accumulated results Integral      = 0.5129E-06  +/-  0.2095E-08  (   0.409 %)
accumulated results Virtual       = 0.1754E-08  +/-  0.1066E-08  (  60.767 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4170E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8472E-09  (   0.175 %)
accumulated results Born          = 0.1875E-05  +/-  0.2688E-08  (   0.143 %)
accumulated results V  2          = 0.1754E-08  +/-  0.1066E-08  (  60.767 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2688E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205965    23880  0.3273E-06  0.1836E-06  0.9826E+00
channel    2 :     1 T   207119    24697  0.3327E-06  0.2000E-06  0.9649E+00
channel    3 :     2 T    73177     8614  0.1169E-06  0.6186E-07  0.9014E+00
channel    4 :     2 T    73609     8343  0.1183E-06  0.6737E-07  0.8883E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9519355594751418E-007  +/-   1.8518095889047129E-009
 Final result:   5.1290153279207315E-007  +/-   2.0953937113845096E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399131
   Stability unknown:                                          0
   Stable PS point:                                       399131
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399131
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399131
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54207158    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.61682606    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.38039589    
 Time spent in Integrated_CT :    9.55999756    
 Time spent in Virtuals :    576.596680    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.40725708    
 Time spent in N1body_prefactor :   0.765302122    
 Time spent in Adding_alphas_pdf :    10.4263792    
 Time spent in Reweight_scale :    44.1607704    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8744869    
 Time spent in Applying_cuts :    5.55328751    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9214706    
 Time spent in Other_tasks :    24.5277100    
 Time spent in Total :    746.332703    
Time in seconds: 759



LOG file for integration channel /P0_uxu_emep/all_G1_69, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18168
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          69
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 217833
  with seed                   48
 Ranmar initialization seeds       30233       16691
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435926D+04 0.435926D+04  1.00
 muF1, muF1_reference: 0.435926D+04 0.435926D+04  1.00
 muF2, muF2_reference: 0.435926D+04 0.435926D+04  1.00
 QES,  QES_reference:  0.435926D+04 0.435926D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4776927637823773E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4776927637823773E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4661730405021935E-006           OLP:   -3.4661730405021948E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6586225463369066E-006           OLP:   -7.6586225463369286E-006
  FINITE:
           OLP:   -6.1562710426142425E-005
           BORN:    9.9893682967215451E-004
  MOMENTA (Exyzm): 
           1   2179.6323428607870        0.0000000000000000        0.0000000000000000        2179.6323428607870        0.0000000000000000     
           2   2179.6323428607870       -0.0000000000000000       -0.0000000000000000       -2179.6323428607870        0.0000000000000000     
           3   2179.6323428607870       -1955.2720415005097       -538.24037139311770        798.75258771025688        0.0000000000000000     
           4   2179.6323428607870        1955.2720415005097        538.24037139311770       -798.75258771025688        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4661730405021935E-006           OLP:   -3.4661730405021948E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6586225463369083E-006           OLP:   -7.6586225463369286E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8938E-06  +/-  0.1823E-08  (   0.204 %)
Integral      = 0.5136E-06  +/-  0.2068E-08  (   0.403 %)
Virtual       = 0.4212E-10  +/-  0.1066E-08  ( ******* %)
Virtual ratio = -.1953E+00  +/-  0.4174E-03  (   0.214 %)
ABS virtual   = 0.4830E-06  +/-  0.8478E-09  (   0.176 %)
Born          = 0.1873E-05  +/-  0.2692E-08  (   0.144 %)
V  2          = 0.4212E-10  +/-  0.1066E-08  ( ******* %)
B  2          = 0.1873E-05  +/-  0.2692E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8938E-06  +/-  0.1823E-08  (   0.204 %)
accumulated results Integral      = 0.5136E-06  +/-  0.2068E-08  (   0.403 %)
accumulated results Virtual       = 0.4212E-10  +/-  0.1066E-08  ( ******* %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4174E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8478E-09  (   0.176 %)
accumulated results Born          = 0.1873E-05  +/-  0.2692E-08  (   0.144 %)
accumulated results V  2          = 0.4212E-10  +/-  0.1066E-08  ( ******* %)
accumulated results B  2          = 0.1873E-05  +/-  0.2692E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206022    23880  0.3271E-06  0.1841E-06  0.1000E+01
channel    2 :     1 T   206683    24697  0.3311E-06  0.1993E-06  0.9361E+00
channel    3 :     2 T    73554     8614  0.1181E-06  0.6306E-07  0.9062E+00
channel    4 :     2 T    73616     8343  0.1175E-06  0.6718E-07  0.9853E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9380622018027882E-007  +/-   1.8225460569779960E-009
 Final result:   5.1361482441429772E-007  +/-   2.0681898651142462E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398605
   Stability unknown:                                          0
   Stable PS point:                                       398605
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398605
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398605
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53134191    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64745235    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.50088930    
 Time spent in Integrated_CT :    9.65454102    
 Time spent in Virtuals :    577.224304    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.45172024    
 Time spent in N1body_prefactor :   0.775395751    
 Time spent in Adding_alphas_pdf :    10.2451401    
 Time spent in Reweight_scale :    44.2829704    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.1854963    
 Time spent in Applying_cuts :    5.65215015    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9965973    
 Time spent in Other_tasks :    24.7060547    
 Time spent in Total :    747.854004    
Time in seconds: 766



LOG file for integration channel /P0_uxu_emep/all_G1_70, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18178
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          70
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 220990
  with seed                   48
 Ranmar initialization seeds       30233       19848
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427022D+04 0.427022D+04  1.00
 muF1, muF1_reference: 0.427022D+04 0.427022D+04  1.00
 muF2, muF2_reference: 0.427022D+04 0.427022D+04  1.00
 QES,  QES_reference:  0.427022D+04 0.427022D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4922455860788217E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4922455860788217E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6316162184610221E-006           OLP:   -3.6316162184610251E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8120937628914778E-006           OLP:   -7.8120937628914253E-006
  FINITE:
           OLP:   -6.9607428728558961E-005
           BORN:    1.0466168738447713E-003
  MOMENTA (Exyzm): 
           1   2135.1119601302498        0.0000000000000000        0.0000000000000000        2135.1119601302498        0.0000000000000000     
           2   2135.1119601302498       -0.0000000000000000       -0.0000000000000000       -2135.1119601302498        0.0000000000000000     
           3   2135.1119601302498       -1615.8416889556697       -1193.5625605900320        723.30293272037352        0.0000000000000000     
           4   2135.1119601302498        1615.8416889556697        1193.5625605900320       -723.30293272037352        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6316162184610221E-006           OLP:   -3.6316162184610251E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8120937628914778E-006           OLP:   -7.8120937628914253E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0691583156585693E-006           3
ABS integral  = 0.8973E-06  +/-  0.1952E-08  (   0.218 %)
Integral      = 0.5146E-06  +/-  0.2185E-08  (   0.425 %)
Virtual       = 0.6546E-09  +/-  0.1064E-08  ( 162.519 %)
Virtual ratio = -.1948E+00  +/-  0.4177E-03  (   0.214 %)
ABS virtual   = 0.4832E-06  +/-  0.8454E-09  (   0.175 %)
Born          = 0.1873E-05  +/-  0.2689E-08  (   0.144 %)
V  2          = 0.6546E-09  +/-  0.1064E-08  ( 162.519 %)
B  2          = 0.1873E-05  +/-  0.2689E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8973E-06  +/-  0.1952E-08  (   0.218 %)
accumulated results Integral      = 0.5146E-06  +/-  0.2185E-08  (   0.425 %)
accumulated results Virtual       = 0.6546E-09  +/-  0.1064E-08  ( 162.519 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4177E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8454E-09  (   0.175 %)
accumulated results Born          = 0.1873E-05  +/-  0.2689E-08  (   0.144 %)
accumulated results V  2          = 0.6546E-09  +/-  0.1064E-08  ( 162.519 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2689E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205965    23880  0.3288E-06  0.1859E-06  0.9395E+00
channel    2 :     1 T   207238    24697  0.3333E-06  0.1976E-06  0.8613E+00
channel    3 :     2 T    73578     8614  0.1170E-06  0.6357E-07  0.9016E+00
channel    4 :     2 T    73093     8343  0.1181E-06  0.6750E-07  0.9753E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9726406071664560E-007  +/-   1.9521973117579790E-009
 Final result:   5.1457189494651678E-007  +/-   2.1854321725643537E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398822
   Stability unknown:                                          0
   Stable PS point:                                       398822
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398822
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398822
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52842247    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.66703510    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.43621683    
 Time spent in Integrated_CT :    9.69348145    
 Time spent in Virtuals :    578.638000    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.47568703    
 Time spent in N1body_prefactor :   0.793361545    
 Time spent in Adding_alphas_pdf :    10.3496628    
 Time spent in Reweight_scale :    44.3782539    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0816498    
 Time spent in Applying_cuts :    5.71081448    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9403381    
 Time spent in Other_tasks :    24.9291382    
 Time spent in Total :    749.622009    
Time in seconds: 770



LOG file for integration channel /P0_uxu_emep/all_G1_71, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18161
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          71
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 224147
  with seed                   48
 Ranmar initialization seeds       30233       23005
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433472D+04 0.433472D+04  1.00
 muF1, muF1_reference: 0.433472D+04 0.433472D+04  1.00
 muF2, muF2_reference: 0.433472D+04 0.433472D+04  1.00
 QES,  QES_reference:  0.433472D+04 0.433472D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4816697615353256E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4816697615353256E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1747014674469873E-006           OLP:   -4.1747014674469856E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2917930511140727E-006           OLP:   -8.2917930511140727E-006
  FINITE:
           OLP:   -1.0511500887027615E-004
           BORN:    1.2031318113636298E-003
  MOMENTA (Exyzm): 
           1   2167.3577913570311        0.0000000000000000        0.0000000000000000        2167.3577913570311        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2167.3577913570311       -0.0000000000000000       -0.0000000000000000       -2167.3577913570311        0.0000000000000000     
           3   2167.3577913570311       -1955.1126300591068       -750.77568419046918        557.95185416639868        0.0000000000000000     
           4   2167.3577913570311        1955.1126300591068        750.77568419046918       -557.95185416639868        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1747014674469873E-006           OLP:   -4.1747014674469856E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2917930511140744E-006           OLP:   -8.2917930511140727E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8925E-06  +/-  0.1967E-08  (   0.220 %)
Integral      = 0.5109E-06  +/-  0.2197E-08  (   0.430 %)
Virtual       = -.3216E-09  +/-  0.1061E-08  ( 329.977 %)
Virtual ratio = -.1951E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4830E-06  +/-  0.8422E-09  (   0.174 %)
Born          = 0.1873E-05  +/-  0.2680E-08  (   0.143 %)
V  2          = -.3216E-09  +/-  0.1061E-08  ( 329.977 %)
B  2          = 0.1873E-05  +/-  0.2680E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8925E-06  +/-  0.1967E-08  (   0.220 %)
accumulated results Integral      = 0.5109E-06  +/-  0.2197E-08  (   0.430 %)
accumulated results Virtual       = -.3216E-09  +/-  0.1061E-08  ( 329.977 %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8422E-09  (   0.174 %)
accumulated results Born          = 0.1873E-05  +/-  0.2680E-08  (   0.143 %)
accumulated results V  2          = -.3216E-09  +/-  0.1061E-08  ( 329.977 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2680E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206056    23880  0.3272E-06  0.1831E-06  0.7982E+00
channel    2 :     1 T   207320    24697  0.3315E-06  0.1982E-06  0.9715E+00
channel    3 :     2 T    73448     8614  0.1171E-06  0.6203E-07  0.9589E+00
channel    4 :     2 T    73045     8343  0.1168E-06  0.6760E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9251110730069234E-007  +/-   1.9670117078540956E-009
 Final result:   5.1087289840062149E-007  +/-   2.1967602113638406E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399231
   Stability unknown:                                          0
   Stable PS point:                                       399231
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399231
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399231
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51117098    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.62442875    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.36346769    
 Time spent in Integrated_CT :    9.57098389    
 Time spent in Virtuals :    576.973083    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.47251892    
 Time spent in N1body_prefactor :   0.759281933    
 Time spent in Adding_alphas_pdf :    10.3584709    
 Time spent in Reweight_scale :    44.3267822    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0990391    
 Time spent in Applying_cuts :    5.58548355    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0051575    
 Time spent in Other_tasks :    24.7913818    
 Time spent in Total :    747.441284    
Time in seconds: 765



LOG file for integration channel /P0_uxu_emep/all_G1_72, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18147
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          72
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 227304
  with seed                   48
 Ranmar initialization seeds       30233       26162
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425611D+04 0.425611D+04  1.00
 muF1, muF1_reference: 0.425611D+04 0.425611D+04  1.00
 muF2, muF2_reference: 0.425611D+04 0.425611D+04  1.00
 QES,  QES_reference:  0.425611D+04 0.425611D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4945847386246267E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4945847386246267E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7394963766599191E-006           OLP:   -3.7394963766599212E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9107031776516287E-006           OLP:   -7.9107031776516151E-006
  FINITE:
           OLP:   -7.5839471274694931E-005
           BORN:    1.0777074922173968E-003
  MOMENTA (Exyzm): 
           1   2128.0566368906339        0.0000000000000000        0.0000000000000000        2128.0566368906339        0.0000000000000000     
           2   2128.0566368906339       -0.0000000000000000       -0.0000000000000000       -2128.0566368906339        0.0000000000000000     
           3   2128.0566368906339       -1920.5929601142893       -609.70053943560458        684.26090315437409        0.0000000000000000     
           4   2128.0566368906339        1920.5929601142893        609.70053943560458       -684.26090315437409        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7394963766599191E-006           OLP:   -3.7394963766599212E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9107031776516287E-006           OLP:   -7.9107031776516151E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8974E-06  +/-  0.1977E-08  (   0.220 %)
Integral      = 0.5123E-06  +/-  0.2209E-08  (   0.431 %)
Virtual       = 0.1950E-09  +/-  0.1062E-08  ( 544.762 %)
Virtual ratio = -.1947E+00  +/-  0.4167E-03  (   0.214 %)
ABS virtual   = 0.4830E-06  +/-  0.8434E-09  (   0.175 %)
Born          = 0.1874E-05  +/-  0.2680E-08  (   0.143 %)
V  2          = 0.1950E-09  +/-  0.1062E-08  ( 544.762 %)
B  2          = 0.1874E-05  +/-  0.2680E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8974E-06  +/-  0.1977E-08  (   0.220 %)
accumulated results Integral      = 0.5123E-06  +/-  0.2209E-08  (   0.431 %)
accumulated results Virtual       = 0.1950E-09  +/-  0.1062E-08  ( 544.762 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4167E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8434E-09  (   0.175 %)
accumulated results Born          = 0.1874E-05  +/-  0.2680E-08  (   0.143 %)
accumulated results V  2          = 0.1950E-09  +/-  0.1062E-08  ( 544.762 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2680E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205929    23880  0.3285E-06  0.1846E-06  0.9058E+00
channel    2 :     1 T   206810    24697  0.3323E-06  0.1974E-06  0.8513E+00
channel    3 :     2 T    73711     8614  0.1181E-06  0.6174E-07  0.9300E+00
channel    4 :     2 T    73425     8343  0.1185E-06  0.6856E-07  0.9840E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9743081426091892E-007  +/-   1.9771452358977833E-009
 Final result:   5.1227288890936977E-007  +/-   2.2088218117543056E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399231
   Stability unknown:                                          0
   Stable PS point:                                       399231
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399231
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399231
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53533638    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.59081745    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.34634686    
 Time spent in Integrated_CT :    9.55377197    
 Time spent in Virtuals :    580.352417    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.38434124    
 Time spent in N1body_prefactor :   0.760764599    
 Time spent in Adding_alphas_pdf :    10.3878365    
 Time spent in Reweight_scale :    44.2869377    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9958086    
 Time spent in Applying_cuts :    5.56020832    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9653778    
 Time spent in Other_tasks :    24.5775757    
 Time spent in Total :    750.297424    
Time in seconds: 773



LOG file for integration channel /P0_uxu_emep/all_G1_73, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18144
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          73
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 230461
  with seed                   48
 Ranmar initialization seeds       30233       29319
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425312D+04 0.425312D+04  1.00
 muF1, muF1_reference: 0.425312D+04 0.425312D+04  1.00
 muF2, muF2_reference: 0.425312D+04 0.425312D+04  1.00
 QES,  QES_reference:  0.425312D+04 0.425312D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4950817841535247E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4950817841535247E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8668717419279501E-006           OLP:   -3.8668717419279314E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0252300398614089E-006           OLP:   -8.0252300398614326E-006
  FINITE:
           OLP:   -8.3594361626880309E-005
           BORN:    1.1144165491722522E-003
  MOMENTA (Exyzm): 
           1   2126.5610079904209        0.0000000000000000        0.0000000000000000        2126.5610079904209        0.0000000000000000     
           2   2126.5610079904209       -0.0000000000000000       -0.0000000000000000       -2126.5610079904209        0.0000000000000000     
           3   2126.5610079904209       -2024.4668552514220       -107.15623740095440        642.11619935937176        0.0000000000000000     
           4   2126.5610079904209        2024.4668552514220        107.15623740095440       -642.11619935937176        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8668717419279501E-006           OLP:   -3.8668717419279314E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.0252300398614106E-006           OLP:   -8.0252300398614326E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9020E-06  +/-  0.5859E-08  (   0.650 %)
Integral      = 0.5092E-06  +/-  0.5943E-08  (   1.167 %)
Virtual       = 0.7122E-09  +/-  0.1066E-08  ( 149.676 %)
Virtual ratio = -.1953E+00  +/-  0.4171E-03  (   0.214 %)
ABS virtual   = 0.4840E-06  +/-  0.8474E-09  (   0.175 %)
Born          = 0.1876E-05  +/-  0.2691E-08  (   0.143 %)
V  2          = 0.7122E-09  +/-  0.1066E-08  ( 149.676 %)
B  2          = 0.1876E-05  +/-  0.2691E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9020E-06  +/-  0.5859E-08  (   0.650 %)
accumulated results Integral      = 0.5092E-06  +/-  0.5943E-08  (   1.167 %)
accumulated results Virtual       = 0.7122E-09  +/-  0.1066E-08  ( 149.676 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4171E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8474E-09  (   0.175 %)
accumulated results Born          = 0.1876E-05  +/-  0.2691E-08  (   0.143 %)
accumulated results V  2          = 0.7122E-09  +/-  0.1066E-08  ( 149.676 %)
accumulated results B  2          = 0.1876E-05  +/-  0.2691E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                             1                               2                3                    4
channel    1 :     1 T   206231    23880  0.3298E-06  0.1847E-06  0.9973E+00
channel    2 :     1 T   206153    24697  0.3305E-06  0.1985E-06  0.9621E+00
channel    3 :     2 T    73775     8614  0.1176E-06  0.6337E-07  0.9209E+00
channel    4 :     2 T    73712     8343  0.1241E-06  0.6262E-07  0.2436E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0200612451302381E-007  +/-   5.8593320492942277E-009
 Final result:   5.0919931886933723E-007  +/-   5.9432209568246139E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399387
   Stability unknown:                                          0
   Stable PS point:                                       399387
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399387
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399387
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51536918    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.60401535    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.42455387    
 Time spent in Integrated_CT :    9.60632324    
 Time spent in Virtuals :    579.913879    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.49011803    
 Time spent in N1body_prefactor :   0.773130536    
 Time spent in Adding_alphas_pdf :    10.3506117    
 Time spent in Reweight_scale :    44.4319382    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9662066    
 Time spent in Applying_cuts :    5.55435514    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0915527    
 Time spent in Other_tasks :    24.6795044    
 Time spent in Total :    750.401550    
Time in seconds: 772



LOG file for integration channel /P0_uxu_emep/all_G1_74, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18158
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          74
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 233618
  with seed                   48
 Ranmar initialization seeds       30233        2395
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442540D+04 0.442540D+04  1.00
 muF1, muF1_reference: 0.442540D+04 0.442540D+04  1.00
 muF2, muF2_reference: 0.442540D+04 0.442540D+04  1.00
 QES,  QES_reference:  0.442540D+04 0.442540D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4671084476856900E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4671084476856900E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8656665843499669E-006           OLP:   -3.8656665843499678E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0241393855302054E-006           OLP:   -8.0241393855302071E-006
  FINITE:
           OLP:   -8.7716846502669527E-005
           BORN:    1.1140692277096078E-003
  MOMENTA (Exyzm): 
           1   2212.7022053274268        0.0000000000000000        0.0000000000000000        2212.7022053274268        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2212.7022053274268       -0.0000000000000000       -0.0000000000000000       -2212.7022053274268        0.0000000000000000     
           3   2212.7022053274268       -1965.7399288434747       -764.84850253411548        668.52400838162077        0.0000000000000000     
           4   2212.7022053274268        1965.7399288434747        764.84850253411548       -668.52400838162077        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8656665843499669E-006           OLP:   -3.8656665843499678E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0241393855302054E-006           OLP:   -8.0241393855302071E-006
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0132789611816406E-006           3
ABS integral  = 0.8947E-06  +/-  0.1787E-08  (   0.200 %)
Integral      = 0.5139E-06  +/-  0.2037E-08  (   0.396 %)
Virtual       = -.5397E-11  +/-  0.1071E-08  ( ******* %)
Virtual ratio = -.1950E+00  +/-  0.4171E-03  (   0.214 %)
ABS virtual   = 0.4842E-06  +/-  0.8539E-09  (   0.176 %)
Born          = 0.1876E-05  +/-  0.2701E-08  (   0.144 %)
V  2          = -.5397E-11  +/-  0.1071E-08  ( ******* %)
B  2          = 0.1876E-05  +/-  0.2701E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8947E-06  +/-  0.1787E-08  (   0.200 %)
accumulated results Integral      = 0.5139E-06  +/-  0.2037E-08  (   0.396 %)
accumulated results Virtual       = -.5397E-11  +/-  0.1071E-08  ( ******* %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4171E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4842E-06  +/-  0.8539E-09  (   0.176 %)
accumulated results Born          = 0.1876E-05  +/-  0.2701E-08  (   0.144 %)
accumulated results V  2          = -.5397E-11  +/-  0.1071E-08  ( ******* %)
accumulated results B  2          = 0.1876E-05  +/-  0.2701E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   206203    23880  0.3277E-06  0.1842E-06  0.9926E+00
channel    2 :     1 T   206704    24697  0.3318E-06  0.1991E-06  0.9793E+00
channel    3 :     2 T    73659     8614  0.1180E-06  0.6262E-07  0.9302E+00
channel    4 :     2 T    73311     8343  0.1172E-06  0.6797E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9467340805899709E-007  +/-   1.7866448455356703E-009
 Final result:   5.1389805992006044E-007  +/-   2.0371758302743527E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399077
   Stability unknown:                                          0
   Stable PS point:                                       399077
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399077
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399077
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.42964399    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.17591000    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.96582890    
 Time spent in Integrated_CT :    8.90295410    
 Time spent in Virtuals :    532.384705    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.77120781    
 Time spent in N1body_prefactor :   0.712505043    
 Time spent in Adding_alphas_pdf :    9.42778587    
 Time spent in Reweight_scale :    39.9333382    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7201881    
 Time spent in Applying_cuts :    5.18440008    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.2569542    
 Time spent in Other_tasks :    23.0971069    
 Time spent in Total :    688.962585    
Time in seconds: 714



LOG file for integration channel /P0_uxu_emep/all_G1_75, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18174
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          75
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 236775
  with seed                   48
 Ranmar initialization seeds       30233        5552
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438802D+04 0.438802D+04  1.00
 muF1, muF1_reference: 0.438802D+04 0.438802D+04  1.00
 muF2, muF2_reference: 0.438802D+04 0.438802D+04  1.00
 QES,  QES_reference:  0.438802D+04 0.438802D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4730676436578838E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4730676436578838E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0586152415995859E-006           OLP:   -4.0586152415995885E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1930828795027443E-006           OLP:   -8.1930828795027545E-006
  FINITE:
           OLP:   -9.9077164770947822E-005
           BORN:    1.1696762380089287E-003
  MOMENTA (Exyzm): 
           1   2194.0106286456335        0.0000000000000000        0.0000000000000000        2194.0106286456335        0.0000000000000000     
           2   2194.0106286456335       -0.0000000000000000       -0.0000000000000000       -2194.0106286456335        0.0000000000000000     
           3   2194.0106286456335       -1968.4340493683194       -760.33613581386396        600.69875351384803        0.0000000000000000     
           4   2194.0106286456335        1968.4340493683194        760.33613581386396       -600.69875351384803        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0586152415995859E-006           OLP:   -4.0586152415995885E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1930828795027426E-006           OLP:   -8.1930828795027545E-006
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.8936E-06  +/-  0.1814E-08  (   0.203 %)
Integral      = 0.5119E-06  +/-  0.2061E-08  (   0.403 %)
Virtual       = 0.6009E-09  +/-  0.1058E-08  ( 176.082 %)
Virtual ratio = -.1952E+00  +/-  0.4173E-03  (   0.214 %)
ABS virtual   = 0.4820E-06  +/-  0.8393E-09  (   0.174 %)
Born          = 0.1869E-05  +/-  0.2666E-08  (   0.143 %)
V  2          = 0.6009E-09  +/-  0.1058E-08  ( 176.082 %)
B  2          = 0.1869E-05  +/-  0.2666E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8936E-06  +/-  0.1814E-08  (   0.203 %)
accumulated results Integral      = 0.5119E-06  +/-  0.2061E-08  (   0.403 %)
accumulated results Virtual       = 0.6009E-09  +/-  0.1058E-08  ( 176.082 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4173E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4820E-06  +/-  0.8393E-09  (   0.174 %)
accumulated results Born          = 0.1869E-05  +/-  0.2666E-08  (   0.143 %)
accumulated results V  2          = 0.6009E-09  +/-  0.1058E-08  ( 176.082 %)
accumulated results B  2          = 0.1869E-05  +/-  0.2666E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206342    23880  0.3273E-06  0.1849E-06  0.9460E+00
channel    2 :     1 T   206864    24697  0.3320E-06  0.1981E-06  0.9709E+00
channel    3 :     2 T    73596     8614  0.1176E-06  0.6139E-07  0.9308E+00
channel    4 :     2 T    73068     8343  0.1168E-06  0.6753E-07  0.9767E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9362576356019675E-007  +/-   1.8139193721269373E-009
 Final result:   5.1194346587496496E-007  +/-   2.0611948246486665E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398699
   Stability unknown:                                          0
   Stable PS point:                                       398699
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398699
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398699
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.43123245    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.25856161    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.19426346    
 Time spent in Integrated_CT :    9.03125000    
 Time spent in Virtuals :    529.831482    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.25367165    
 Time spent in N1body_prefactor :   0.723628402    
 Time spent in Adding_alphas_pdf :    9.31613731    
 Time spent in Reweight_scale :    40.0194321    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3825769    
 Time spent in Applying_cuts :    5.25630331    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.7156982    
 Time spent in Other_tasks :    23.3238525    
 Time spent in Total :    688.738037    
Time in seconds: 713



LOG file for integration channel /P0_uxu_emep/all_G1_76, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18152
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          76
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 239932
  with seed                   48
 Ranmar initialization seeds       30233        8709
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419134D+04 0.419134D+04  1.00
 muF1, muF1_reference: 0.419134D+04 0.419134D+04  1.00
 muF2, muF2_reference: 0.419134D+04 0.419134D+04  1.00
 QES,  QES_reference:  0.419134D+04 0.419134D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5054411161441154E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5054411161441154E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9362513810573802E-006           OLP:   -3.9362513810573793E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0866442352934811E-006           OLP:   -8.0866442352934845E-006
  FINITE:
           OLP:   -8.6327917546127241E-005
           BORN:    1.1344114761265365E-003
  MOMENTA (Exyzm): 
           1   2095.6706182759049        0.0000000000000000        0.0000000000000000        2095.6706182759049        0.0000000000000000     
           2   2095.6706182759049       -0.0000000000000000       -0.0000000000000000       -2095.6706182759049        0.0000000000000000     
           3   2095.6706182759049       -1690.2394325860580       -1077.7363853665624        611.07305986525830        0.0000000000000000     
           4   2095.6706182759049        1690.2394325860580        1077.7363853665624       -611.07305986525830        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9362513810573802E-006           OLP:   -3.9362513810573793E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0866442352934811E-006           OLP:   -8.0866442352934845E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8921E-06  +/-  0.1786E-08  (   0.200 %)
Integral      = 0.5151E-06  +/-  0.2034E-08  (   0.395 %)
Virtual       = -.4754E-12  +/-  0.1063E-08  ( ******* %)
Virtual ratio = -.1952E+00  +/-  0.4170E-03  (   0.214 %)
ABS virtual   = 0.4825E-06  +/-  0.8445E-09  (   0.175 %)
Born          = 0.1871E-05  +/-  0.2681E-08  (   0.143 %)
V  2          = -.4754E-12  +/-  0.1063E-08  ( ******* %)
B  2          = 0.1871E-05  +/-  0.2681E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8921E-06  +/-  0.1786E-08  (   0.200 %)
accumulated results Integral      = 0.5151E-06  +/-  0.2034E-08  (   0.395 %)
accumulated results Virtual       = -.4754E-12  +/-  0.1063E-08  ( ******* %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4170E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4825E-06  +/-  0.8445E-09  (   0.175 %)
accumulated results Born          = 0.1871E-05  +/-  0.2681E-08  (   0.143 %)
accumulated results V  2          = -.4754E-12  +/-  0.1063E-08  ( ******* %)
accumulated results B  2          = 0.1871E-05  +/-  0.2681E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206024    23880  0.3253E-06  0.1839E-06  0.1000E+01
channel    2 :     1 T   207458    24697  0.3329E-06  0.2009E-06  0.9657E+00
channel    3 :     2 T    73496     8614  0.1164E-06  0.6333E-07  0.9753E+00
channel    4 :     2 T    72894     8343  0.1174E-06  0.6697E-07  0.9149E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9206227057720524E-007  +/-   1.7858008579281935E-009
 Final result:   5.1507045863580849E-007  +/-   2.0338590304834286E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398887
   Stability unknown:                                          0
   Stable PS point:                                       398887
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398887
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398887
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.38925290    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.09461212    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.90641880    
 Time spent in Integrated_CT :    8.78503418    
 Time spent in Virtuals :    526.369385    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.60662174    
 Time spent in N1body_prefactor :   0.694154978    
 Time spent in Adding_alphas_pdf :    9.38837433    
 Time spent in Reweight_scale :    40.0756149    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6817207    
 Time spent in Applying_cuts :    5.07776165    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.7519913    
 Time spent in Other_tasks :    22.3914185    
 Time spent in Total :    681.212341    
Time in seconds: 704



LOG file for integration channel /P0_uxu_emep/all_G1_77, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18156
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          77
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 243089
  with seed                   48
 Ranmar initialization seeds       30233       11866
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429474D+04 0.429474D+04  1.00
 muF1, muF1_reference: 0.429474D+04 0.429474D+04  1.00
 muF2, muF2_reference: 0.429474D+04 0.429474D+04  1.00
 QES,  QES_reference:  0.429474D+04 0.429474D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4882036632801560E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4882036632801560E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1965549665007829E-006           OLP:   -4.1965549665007821E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3101203037180238E-006           OLP:   -8.3101203037179510E-006
  FINITE:
           OLP:   -1.0542613450899977E-004
           BORN:    1.2094299000069133E-003
  MOMENTA (Exyzm): 
           1   2147.3684504317184        0.0000000000000000        0.0000000000000000        2147.3684504317184        0.0000000000000000     
           2   2147.3684504317184       -0.0000000000000000       -0.0000000000000000       -2147.3684504317184        0.0000000000000000     
           3   2147.3684504317184       -1698.9431571097937       -1194.2899568334303        546.31026882727542        0.0000000000000000     
           4   2147.3684504317184        1698.9431571097937        1194.2899568334303       -546.31026882727542        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1965549665007829E-006           OLP:   -4.1965549665007821E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3101203037180272E-006           OLP:   -8.3101203037179510E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8965E-06  +/-  0.1962E-08  (   0.219 %)
Integral      = 0.5155E-06  +/-  0.2193E-08  (   0.425 %)
Virtual       = 0.9180E-09  +/-  0.1064E-08  ( 115.862 %)
Virtual ratio = -.1952E+00  +/-  0.4168E-03  (   0.213 %)
ABS virtual   = 0.4832E-06  +/-  0.8451E-09  (   0.175 %)
Born          = 0.1876E-05  +/-  0.2690E-08  (   0.143 %)
V  2          = 0.9180E-09  +/-  0.1064E-08  ( 115.862 %)
B  2          = 0.1876E-05  +/-  0.2690E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8965E-06  +/-  0.1962E-08  (   0.219 %)
accumulated results Integral      = 0.5155E-06  +/-  0.2193E-08  (   0.425 %)
accumulated results Virtual       = 0.9180E-09  +/-  0.1064E-08  ( 115.862 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4168E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8451E-09  (   0.175 %)
accumulated results Born          = 0.1876E-05  +/-  0.2690E-08  (   0.143 %)
accumulated results V  2          = 0.9180E-09  +/-  0.1064E-08  ( 115.862 %)
accumulated results B  2          = 0.1876E-05  +/-  0.2690E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                3                     4
channel    1 :     1 T   205906    23880  0.3276E-06  0.1843E-06  0.8175E+00
channel    2 :     1 T   207019    24697  0.3334E-06  0.2008E-06  0.9640E+00
channel    3 :     2 T    73769     8614  0.1180E-06  0.6237E-07  0.9360E+00
channel    4 :     2 T    73180     8343  0.1175E-06  0.6799E-07  0.9949E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9647923185284736E-007  +/-   1.9619706158016376E-009
 Final result:   5.1547312802890861E-007  +/-   2.1932158095461398E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399245
   Stability unknown:                                          0
   Stable PS point:                                       399245
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399245
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399245
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.41424799    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.19538403    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.01301384    
 Time spent in Integrated_CT :    8.82904053    
 Time spent in Virtuals :    526.642944    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.65759659    
 Time spent in N1body_prefactor :   0.708998203    
 Time spent in Adding_alphas_pdf :    9.53375149    
 Time spent in Reweight_scale :    40.5063782    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0165977    
 Time spent in Applying_cuts :    5.10099220    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.5494499    
 Time spent in Other_tasks :    22.6254272    
 Time spent in Total :    682.793823    
Time in seconds: 707



LOG file for integration channel /P0_uxu_emep/all_G1_78, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18145
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          78
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 246246
  with seed                   48
 Ranmar initialization seeds       30233       15023
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433163D+04 0.433163D+04  1.00
 muF1, muF1_reference: 0.433163D+04 0.433163D+04  1.00
 muF2, muF2_reference: 0.433163D+04 0.433163D+04  1.00
 QES,  QES_reference:  0.433163D+04 0.433163D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4821717368316012E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4821717368316012E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8906684405782429E-006           OLP:   -3.8906684405782369E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0463640457695570E-006           OLP:   -8.0463640457695892E-006
  FINITE:
           OLP:   -8.7009782807518629E-005
           BORN:    1.1212746599557066E-003
  MOMENTA (Exyzm): 
           1   2165.8143111904528        0.0000000000000000        0.0000000000000000        2165.8143111904528        0.0000000000000000     
           2   2165.8143111904528       -0.0000000000000000       -0.0000000000000000       -2165.8143111904528        0.0000000000000000     
           3   2165.8143111904528       -2018.2419538599154       -447.05081769465244        646.21715594344062        0.0000000000000000     
           4   2165.8143111904528        2018.2419538599154        447.05081769465244       -646.21715594344062        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8906684405782429E-006           OLP:   -3.8906684405782369E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0463640457695570E-006           OLP:   -8.0463640457695892E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8945E-06  +/-  0.1839E-08  (   0.206 %)
Integral      = 0.5139E-06  +/-  0.2083E-08  (   0.405 %)
Virtual       = 0.1716E-08  +/-  0.1066E-08  (  62.135 %)
Virtual ratio = -.1946E+00  +/-  0.4172E-03  (   0.214 %)
ABS virtual   = 0.4836E-06  +/-  0.8476E-09  (   0.175 %)
Born          = 0.1874E-05  +/-  0.2684E-08  (   0.143 %)
V  2          = 0.1716E-08  +/-  0.1066E-08  (  62.135 %)
B  2          = 0.1874E-05  +/-  0.2684E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8945E-06  +/-  0.1839E-08  (   0.206 %)
accumulated results Integral      = 0.5139E-06  +/-  0.2083E-08  (   0.405 %)
accumulated results Virtual       = 0.1716E-08  +/-  0.1066E-08  (  62.135 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4172E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8476E-09  (   0.175 %)
accumulated results Born          = 0.1874E-05  +/-  0.2684E-08  (   0.143 %)
accumulated results V  2          = 0.1716E-08  +/-  0.1066E-08  (  62.135 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2684E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                3                     4
channel    1 :     1 T   206098    23880  0.3280E-06  0.1853E-06  0.9607E+00
channel    2 :     1 T   206932    24697  0.3306E-06  0.1998E-06  0.9747E+00
channel    3 :     2 T    73455     8614  0.1174E-06  0.6180E-07  0.8920E+00
channel    4 :     2 T    73388     8343  0.1186E-06  0.6695E-07  0.9527E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9454030476883111E-007  +/-   1.8385643040954360E-009
 Final result:   5.1386625344460754E-007  +/-   2.0827715385350558E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399131
   Stability unknown:                                          0
   Stable PS point:                                       399131
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399131
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399131
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.38968837    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.15604877    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.94908190    
 Time spent in Integrated_CT :    8.80004883    
 Time spent in Virtuals :    526.413269    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.59358025    
 Time spent in N1body_prefactor :   0.695900440    
 Time spent in Adding_alphas_pdf :    9.50058556    
 Time spent in Reweight_scale :    40.4924622    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7139263    
 Time spent in Applying_cuts :    5.13161945    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.5583725    
 Time spent in Other_tasks :    22.5019531    
 Time spent in Total :    681.896545    
Time in seconds: 706



LOG file for integration channel /P0_uxu_emep/all_G1_79, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18159
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          79
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 249403
  with seed                   48
 Ranmar initialization seeds       30233       18180
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433915D+04 0.433915D+04  1.00
 muF1, muF1_reference: 0.433915D+04 0.433915D+04  1.00
 muF2, muF2_reference: 0.433915D+04 0.433915D+04  1.00
 QES,  QES_reference:  0.433915D+04 0.433915D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4809495596375217E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4809495596375217E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5647587948030308E-006           OLP:   -3.5647587948030393E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7503541456178372E-006           OLP:   -7.7503541456177440E-006
  FINITE:
           OLP:   -6.7084963067556283E-005
           BORN:    1.0273488390269581E-003
  MOMENTA (Exyzm): 
           1   2169.5745473916031        0.0000000000000000        0.0000000000000000        2169.5745473916031        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2169.5745473916031       -0.0000000000000000       -0.0000000000000000       -2169.5745473916031        0.0000000000000000     
           3   2169.5745473916031       -1574.9174829184676       -1284.8605669385672        758.82933668483224        0.0000000000000000     
           4   2169.5745473916031        1574.9174829184676        1284.8605669385672       -758.82933668483224        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5647587948030308E-006           OLP:   -3.5647587948030393E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7503541456178372E-006           OLP:   -7.7503541456177440E-006
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8986E-06  +/-  0.1856E-08  (   0.207 %)
Integral      = 0.5140E-06  +/-  0.2101E-08  (   0.409 %)
Virtual       = 0.1849E-08  +/-  0.1072E-08  (  57.968 %)
Virtual ratio = -.1940E+00  +/-  0.4175E-03  (   0.215 %)
ABS virtual   = 0.4844E-06  +/-  0.8540E-09  (   0.176 %)
Born          = 0.1874E-05  +/-  0.2697E-08  (   0.144 %)
V  2          = 0.1849E-08  +/-  0.1072E-08  (  57.968 %)
B  2          = 0.1874E-05  +/-  0.2697E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8986E-06  +/-  0.1856E-08  (   0.207 %)
accumulated results Integral      = 0.5140E-06  +/-  0.2101E-08  (   0.409 %)
accumulated results Virtual       = 0.1849E-08  +/-  0.1072E-08  (  57.968 %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4175E-03  (   0.215 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8540E-09  (   0.176 %)
accumulated results Born          = 0.1874E-05  +/-  0.2697E-08  (   0.144 %)
accumulated results V  2          = 0.1849E-08  +/-  0.1072E-08  (  57.968 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2697E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205536    23880  0.3274E-06  0.1828E-06  0.9525E+00
channel    2 :     1 T   207464    24697  0.3346E-06  0.2019E-06  0.9437E+00
channel    3 :     2 T    73249     8614  0.1176E-06  0.6201E-07  0.9206E+00
channel    4 :     2 T    73627     8343  0.1190E-06  0.6728E-07  0.9996E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9860232188347221E-007  +/-   1.8561633301636408E-009
 Final result:   5.1397927011606908E-007  +/-   2.1013717243005972E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398932
   Stability unknown:                                          0
   Stable PS point:                                       398932
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398932
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398932
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.39984167    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.17861176    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.96037197    
 Time spent in Integrated_CT :    8.76989746    
 Time spent in Virtuals :    526.566101    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.66599321    
 Time spent in N1body_prefactor :   0.718786240    
 Time spent in Adding_alphas_pdf :    9.32701015    
 Time spent in Reweight_scale :    40.4995918    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5988665    
 Time spent in Applying_cuts :    5.12378311    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.9229431    
 Time spent in Other_tasks :    22.5977783    
 Time spent in Total :    682.329590    
Time in seconds: 707



LOG file for integration channel /P0_uxu_emep/all_G1_80, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18162
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          80
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 252560
  with seed                   48
 Ranmar initialization seeds       30233       21337
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434051D+04 0.434051D+04  1.00
 muF1, muF1_reference: 0.434051D+04 0.434051D+04  1.00
 muF2, muF2_reference: 0.434051D+04 0.434051D+04  1.00
 QES,  QES_reference:  0.434051D+04 0.434051D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4807284990417611E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4763378287778584E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6396241649237295E-006           OLP:   -3.6396241649237231E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8194558529092710E-006           OLP:   -7.8194558529091067E-006
  FINITE:
           OLP:   -7.2280630010985905E-005
           BORN:    1.0489247311150714E-003
  MOMENTA (Exyzm): 
           1   2183.8329298685667        0.0000000000000000        0.0000000000000000        2183.8329298685667        0.0000000000000000     
           2   2183.8329298685667       -0.0000000000000000       -0.0000000000000000       -2183.8329298685667        0.0000000000000000     
           3   2183.8329298685667       -1191.1884754118512       -1675.4323830242956        736.96852818681975        0.0000000000000000     
           4   2183.8329298685667        1191.1884754118512        1675.4323830242956       -736.96852818681975        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6396241649237295E-006           OLP:   -3.6396241649237231E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8194558529092727E-006           OLP:   -7.8194558529091067E-006
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.2298114597797394E-006           4
ABS integral  = 0.8990E-06  +/-  0.1858E-08  (   0.207 %)
Integral      = 0.5130E-06  +/-  0.2104E-08  (   0.410 %)
Virtual       = -.1388E-08  +/-  0.1069E-08  (  77.011 %)
Virtual ratio = -.1951E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4847E-06  +/-  0.8506E-09  (   0.175 %)
Born          = 0.1880E-05  +/-  0.2702E-08  (   0.144 %)
V  2          = -.1388E-08  +/-  0.1069E-08  (  77.011 %)
B  2          = 0.1880E-05  +/-  0.2702E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8990E-06  +/-  0.1858E-08  (   0.207 %)
accumulated results Integral      = 0.5130E-06  +/-  0.2104E-08  (   0.410 %)
accumulated results Virtual       = -.1388E-08  +/-  0.1069E-08  (  77.011 %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4847E-06  +/-  0.8506E-09  (   0.175 %)
accumulated results Born          = 0.1880E-05  +/-  0.2702E-08  (   0.144 %)
accumulated results V  2          = -.1388E-08  +/-  0.1069E-08  (  77.011 %)
accumulated results B  2          = 0.1880E-05  +/-  0.2702E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                3                     4
channel    1 :     1 T   205911    23880  0.3276E-06  0.1849E-06  0.1000E+01
channel    2 :     1 T   206913    24697  0.3336E-06  0.1979E-06  0.9368E+00
channel    3 :     2 T    73635     8614  0.1175E-06  0.6156E-07  0.9368E+00
channel    4 :     2 T    73418     8343  0.1204E-06  0.6858E-07  0.8685E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9904792135865500E-007  +/-   1.8579148319450247E-009
 Final result:   5.1301451544850408E-007  +/-   2.1036798151027979E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399577
   Stability unknown:                                          0
   Stable PS point:                                       399577
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399577
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399577
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.39699483    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.14026928    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.91722679    
 Time spent in Integrated_CT :    8.80578613    
 Time spent in Virtuals :    525.544861    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.71796322    
 Time spent in N1body_prefactor :   0.722174168    
 Time spent in Adding_alphas_pdf :    9.40890026    
 Time spent in Reweight_scale :    40.2246475    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7598162    
 Time spent in Applying_cuts :    5.10535336    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.6793289    
 Time spent in Other_tasks :    22.5693970    
 Time spent in Total :    680.992676    
Time in seconds: 704



LOG file for integration channel /P0_uxu_emep/all_G1_81, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18182
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          81
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 255717
  with seed                   48
 Ranmar initialization seeds       30233       24494
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436933D+04 0.436933D+04  1.00
 muF1, muF1_reference: 0.436933D+04 0.436933D+04  1.00
 muF2, muF2_reference: 0.436933D+04 0.436933D+04  1.00
 QES,  QES_reference:  0.436933D+04 0.436933D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4760690649806963E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4760690649806963E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5816979392385344E-006           OLP:   -3.5816979392385340E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7660363535506408E-006           OLP:   -7.7660363535505713E-006
  FINITE:
           OLP:   -6.8772459847320078E-005
           BORN:    1.0322306308596326E-003
  MOMENTA (Exyzm): 
           1   2184.6672903835015        0.0000000000000000        0.0000000000000000        2184.6672903835015        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2184.6672903835015       -0.0000000000000000       -0.0000000000000000       -2184.6672903835015        0.0000000000000000     
           3   2184.6672903835015       -1367.5948245157208       -1525.7581183647692        757.96947819381558        0.0000000000000000     
           4   2184.6672903835015        1367.5948245157208        1525.7581183647692       -757.96947819381558        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5816979392385344E-006           OLP:   -3.5816979392385340E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7660363535506408E-006           OLP:   -7.7660363535505713E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8932E-06  +/-  0.1986E-08  (   0.222 %)
Integral      = 0.5103E-06  +/-  0.2215E-08  (   0.434 %)
Virtual       = -.1252E-08  +/-  0.1063E-08  (  84.908 %)
Virtual ratio = -.1953E+00  +/-  0.4164E-03  (   0.213 %)
ABS virtual   = 0.4831E-06  +/-  0.8443E-09  (   0.175 %)
Born          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
V  2          = -.1252E-08  +/-  0.1063E-08  (  84.908 %)
B  2          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8932E-06  +/-  0.1986E-08  (   0.222 %)
accumulated results Integral      = 0.5103E-06  +/-  0.2215E-08  (   0.434 %)
accumulated results Virtual       = -.1252E-08  +/-  0.1063E-08  (  84.908 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4164E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4831E-06  +/-  0.8443E-09  (   0.175 %)
accumulated results Born          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
accumulated results V  2          = -.1252E-08  +/-  0.1063E-08  (  84.908 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206264    23880  0.3289E-06  0.1835E-06  0.7925E+00
channel    2 :     1 T   206033    24697  0.3275E-06  0.1966E-06  0.9788E+00
channel    3 :     2 T    74101     8614  0.1181E-06  0.6252E-07  0.9495E+00
channel    4 :     2 T    73476     8343  0.1186E-06  0.6761E-07  0.9778E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9318001376603828E-007  +/-   1.9860591454211787E-009
 Final result:   5.1025372124036651E-007  +/-   2.2145685899982566E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398963
   Stability unknown:                                          0
   Stable PS point:                                       398963
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398963
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398963
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.38999081    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.17865753    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.92992020    
 Time spent in Integrated_CT :    8.81976318    
 Time spent in Virtuals :    524.910583    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.60762215    
 Time spent in N1body_prefactor :   0.681977868    
 Time spent in Adding_alphas_pdf :    11.0635128    
 Time spent in Reweight_scale :    45.0180359    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5784130    
 Time spent in Applying_cuts :    5.08183670    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.4115753    
 Time spent in Other_tasks :    22.1697388    
 Time spent in Total :    685.841675    
Time in seconds: 713



LOG file for integration channel /P0_uxu_emep/all_G1_82, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18157
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          82
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 258874
  with seed                   48
 Ranmar initialization seeds       30233       27651
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430776D+04 0.430776D+04  1.00
 muF1, muF1_reference: 0.430776D+04 0.430776D+04  1.00
 muF2, muF2_reference: 0.430776D+04 0.430776D+04  1.00
 QES,  QES_reference:  0.430776D+04 0.430776D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4860666888025978E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4860666888025965E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5574023730110987E-006           OLP:   -3.5574023730111064E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7435354756121207E-006           OLP:   -7.7435354756121072E-006
  FINITE:
           OLP:   -6.5957026300007818E-005
           BORN:    1.0252287484900184E-003
  MOMENTA (Exyzm): 
           1   2153.8820879293003        0.0000000000000000        0.0000000000000000        2153.8820879293003        0.0000000000000000     
           2   2153.8820879293003       -0.0000000000000000       -0.0000000000000000       -2153.8820879293003        0.0000000000000000     
           3   2153.8820879293003       -1815.8970075626346       -877.62155575512975        755.98049677336076        0.0000000000000000     
           4   2153.8820879293003        1815.8970075626346        877.62155575512975       -755.98049677336076        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5574023730110987E-006           OLP:   -3.5574023730111064E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.7435354756121207E-006           OLP:   -7.7435354756121072E-006
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8968E-06  +/-  0.2844E-08  (   0.317 %)
Integral      = 0.5096E-06  +/-  0.3011E-08  (   0.591 %)
Virtual       = 0.6314E-09  +/-  0.1070E-08  ( 169.403 %)
Virtual ratio = -.1949E+00  +/-  0.4177E-03  (   0.214 %)
ABS virtual   = 0.4832E-06  +/-  0.8527E-09  (   0.176 %)
Born          = 0.1872E-05  +/-  0.2693E-08  (   0.144 %)
V  2          = 0.6314E-09  +/-  0.1070E-08  ( 169.403 %)
B  2          = 0.1872E-05  +/-  0.2693E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8968E-06  +/-  0.2844E-08  (   0.317 %)
accumulated results Integral      = 0.5096E-06  +/-  0.3011E-08  (   0.591 %)
accumulated results Virtual       = 0.6314E-09  +/-  0.1070E-08  ( 169.403 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4177E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8527E-09  (   0.176 %)
accumulated results Born          = 0.1872E-05  +/-  0.2693E-08  (   0.144 %)
accumulated results V  2          = 0.6314E-09  +/-  0.1070E-08  ( 169.403 %)
accumulated results B  2          = 0.1872E-05  +/-  0.2693E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206179    23880  0.3277E-06  0.1865E-06  0.9955E+00
channel    2 :     1 T   206690    24697  0.3327E-06  0.1942E-06  0.4871E+00
channel    3 :     2 T    73375     8614  0.1174E-06  0.6199E-07  0.8844E+00
channel    4 :     2 T    73633     8343  0.1190E-06  0.6696E-07  0.8560E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9684374613192105E-007  +/-   2.8444197961824932E-009
 Final result:   5.0963858122693669E-007  +/-   3.0105549904808420E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398848
   Stability unknown:                                          0
   Stable PS point:                                       398848
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398848
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398848
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.38320625    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.13844395    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.94942665    
 Time spent in Integrated_CT :    8.65722656    
 Time spent in Virtuals :    523.855713    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.63744211    
 Time spent in N1body_prefactor :   0.721947730    
 Time spent in Adding_alphas_pdf :    9.37126446    
 Time spent in Reweight_scale :    40.3413391    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6592808    
 Time spent in Applying_cuts :    5.05944443    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.6391754    
 Time spent in Other_tasks :    22.4510498    
 Time spent in Total :    678.864990    
Time in seconds: 704



LOG file for integration channel /P0_uxu_emep/all_G1_83, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18165
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          83
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 262031
  with seed                   48
 Ranmar initialization seeds       30233         727
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424835D+04 0.424835D+04  1.00
 muF1, muF1_reference: 0.424835D+04 0.424835D+04  1.00
 muF2, muF2_reference: 0.424835D+04 0.424835D+04  1.00
 QES,  QES_reference:  0.424835D+04 0.424835D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4958748096547886E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4958748096547886E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8548737968553597E-006           OLP:   -3.8548737968553588E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0145391676819686E-006           OLP:   -8.0145391676819382E-006
  FINITE:
           OLP:   -8.2735906414943767E-005
           BORN:    1.1109587906952959E-003
  MOMENTA (Exyzm): 
           1   2124.1773373852484        0.0000000000000000        0.0000000000000000        2124.1773373852484        0.0000000000000000     
           2   2124.1773373852484       -0.0000000000000000       -0.0000000000000000       -2124.1773373852484        0.0000000000000000     
           3   2124.1773373852484       -2018.0095093901168       -153.03978218540311        645.24863869735339        0.0000000000000000     
           4   2124.1773373852484        2018.0095093901168        153.03978218540311       -645.24863869735339        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8548737968553597E-006           OLP:   -3.8548737968553588E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0145391676819686E-006           OLP:   -8.0145391676819382E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0728836059570312E-006           3
ABS integral  = 0.8974E-06  +/-  0.1775E-08  (   0.198 %)
Integral      = 0.5182E-06  +/-  0.2027E-08  (   0.391 %)
Virtual       = 0.1200E-08  +/-  0.1065E-08  (  88.706 %)
Virtual ratio = -.1946E+00  +/-  0.4170E-03  (   0.214 %)
ABS virtual   = 0.4844E-06  +/-  0.8453E-09  (   0.175 %)
Born          = 0.1878E-05  +/-  0.2692E-08  (   0.143 %)
V  2          = 0.1200E-08  +/-  0.1065E-08  (  88.706 %)
B  2          = 0.1878E-05  +/-  0.2692E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8974E-06  +/-  0.1775E-08  (   0.198 %)
accumulated results Integral      = 0.5182E-06  +/-  0.2027E-08  (   0.391 %)
accumulated results Virtual       = 0.1200E-08  +/-  0.1065E-08  (  88.706 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4170E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8453E-09  (   0.175 %)
accumulated results Born          = 0.1878E-05  +/-  0.2692E-08  (   0.143 %)
accumulated results V  2          = 0.1200E-08  +/-  0.1065E-08  (  88.706 %)
accumulated results B  2          = 0.1878E-05  +/-  0.2692E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   205694    23880  0.3267E-06  0.1853E-06  0.1000E+01
channel    2 :     1 T   207020    24697  0.3334E-06  0.2005E-06  0.9605E+00
channel    3 :     2 T    73575     8614  0.1170E-06  0.6368E-07  0.9785E+00
channel    4 :     2 T    73584     8343  0.1203E-06  0.6865E-07  0.9620E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9738410002732391E-007  +/-   1.7753821919715388E-009
 Final result:   5.1821576863340032E-007  +/-   2.0274822676122800E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399275
   Stability unknown:                                          0
   Stable PS point:                                       399275
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399275
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399275
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.39327955    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.19346666    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.94058847    
 Time spent in Integrated_CT :    8.73388672    
 Time spent in Virtuals :    525.809448    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.68218470    
 Time spent in N1body_prefactor :   0.752547979    
 Time spent in Adding_alphas_pdf :    9.34744740    
 Time spent in Reweight_scale :    40.4660721    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6184206    
 Time spent in Applying_cuts :    5.10103226    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.4923477    
 Time spent in Other_tasks :    22.6975098    
 Time spent in Total :    681.228271    
Time in seconds: 704



LOG file for integration channel /P0_uxu_emep/all_G1_84, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18146
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          84
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 265188
  with seed                   48
 Ranmar initialization seeds       30233        3884
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.417882D+04 0.417882D+04  1.00
 muF1, muF1_reference: 0.417882D+04 0.417882D+04  1.00
 muF2, muF2_reference: 0.417882D+04 0.417882D+04  1.00
 QES,  QES_reference:  0.417882D+04 0.417882D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5075631835847589E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5075631835847589E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0087831289150813E-006           OLP:   -4.0087831289150788E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1500490833195434E-006           OLP:   -8.1500490833195247E-006
  FINITE:
           OLP:   -9.0487807356626746E-005
           BORN:    1.1553148278660257E-003
  MOMENTA (Exyzm): 
           1   2089.4085558386087        0.0000000000000000        0.0000000000000000        2089.4085558386087        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2089.4085558386087       -0.0000000000000000       -0.0000000000000000       -2089.4085558386087        0.0000000000000000     
           3   2089.4085558386087       -1057.3426373368679       -1703.8236440168093        587.06017627699657        0.0000000000000000     
           4   2089.4085558386087        1057.3426373368679        1703.8236440168093       -587.06017627699657        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0087831289150813E-006           OLP:   -4.0087831289150788E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1500490833195434E-006           OLP:   -8.1500490833195247E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8925E-06  +/-  0.1823E-08  (   0.204 %)
Integral      = 0.5120E-06  +/-  0.2068E-08  (   0.404 %)
Virtual       = -.1230E-08  +/-  0.1065E-08  (  86.552 %)
Virtual ratio = -.1958E+00  +/-  0.4176E-03  (   0.213 %)
ABS virtual   = 0.4821E-06  +/-  0.8474E-09  (   0.176 %)
Born          = 0.1872E-05  +/-  0.2690E-08  (   0.144 %)
V  2          = -.1230E-08  +/-  0.1065E-08  (  86.552 %)
B  2          = 0.1872E-05  +/-  0.2690E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8925E-06  +/-  0.1823E-08  (   0.204 %)
accumulated results Integral      = 0.5120E-06  +/-  0.2068E-08  (   0.404 %)
accumulated results Virtual       = -.1230E-08  +/-  0.1065E-08  (  86.552 %)
accumulated results Virtual ratio = -.1958E+00  +/-  0.4176E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4821E-06  +/-  0.8474E-09  (   0.176 %)
accumulated results Born          = 0.1872E-05  +/-  0.2690E-08  (   0.144 %)
accumulated results V  2          = -.1230E-08  +/-  0.1065E-08  (  86.552 %)
accumulated results B  2          = 0.1872E-05  +/-  0.2690E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   205869    23880  0.3257E-06  0.1845E-06  0.1000E+01
channel    2 :     1 T   207581    24697  0.3327E-06  0.1973E-06  0.9124E+00
channel    3 :     2 T    73128     8614  0.1163E-06  0.6229E-07  0.9414E+00
channel    4 :     2 T    73291     8343  0.1178E-06  0.6794E-07  0.9854E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9252325040741733E-007  +/-   1.8226241102563110E-009
 Final result:   5.1197164612533482E-007  +/-   2.0679967117905874E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398652
   Stability unknown:                                          0
   Stable PS point:                                       398652
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398652
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398652
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.39851332    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.08780003    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.87758636    
 Time spent in Integrated_CT :    8.71264648    
 Time spent in Virtuals :    525.138000    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.61309958    
 Time spent in N1body_prefactor :   0.726563334    
 Time spent in Adding_alphas_pdf :    9.31854057    
 Time spent in Reweight_scale :    40.3634109    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8176060    
 Time spent in Applying_cuts :    5.07814169    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.5105667    
 Time spent in Other_tasks :    22.4827881    
 Time spent in Total :    680.125244    
Time in seconds: 704



LOG file for integration channel /P0_uxu_emep/all_G1_85, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       18148
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          85
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 268345
  with seed                   48
 Ranmar initialization seeds       30233        7041
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441796D+04 0.441796D+04  1.00
 muF1, muF1_reference: 0.441796D+04 0.441796D+04  1.00
 muF2, muF2_reference: 0.441796D+04 0.441796D+04  1.00
 QES,  QES_reference:  0.441796D+04 0.441796D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4682905487079190E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4682905487079190E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7913215795728154E-006           OLP:   -3.7913215795728112E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9575539632752847E-006           OLP:   -7.9575539632752406E-006
  FINITE:
           OLP:   -8.2851760576056207E-005
           BORN:    1.0926433027756094E-003
  MOMENTA (Exyzm): 
           1   2208.9793326826803        0.0000000000000000        0.0000000000000000        2208.9793326826803        0.0000000000000000     
           2   2208.9793326826803       -0.0000000000000000       -0.0000000000000000       -2208.9793326826803        0.0000000000000000     
           3   2208.9793326826803       -2010.2430478630852       -599.17052278839367        692.46463112482297        0.0000000000000000     
           4   2208.9793326826803        2010.2430478630852        599.17052278839367       -692.46463112482297        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7913215795728154E-006           OLP:   -3.7913215795728112E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9575539632752864E-006           OLP:   -7.9575539632752406E-006
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.1920928955078125E-006           3
ABS integral  = 0.8995E-06  +/-  0.1915E-08  (   0.213 %)
Integral      = 0.5161E-06  +/-  0.2153E-08  (   0.417 %)
Virtual       = 0.3166E-08  +/-  0.1069E-08  (  33.763 %)
Virtual ratio = -.1944E+00  +/-  0.4170E-03  (   0.215 %)
ABS virtual   = 0.4852E-06  +/-  0.8499E-09  (   0.175 %)
Born          = 0.1878E-05  +/-  0.2690E-08  (   0.143 %)
V  2          = 0.3166E-08  +/-  0.1069E-08  (  33.763 %)
B  2          = 0.1878E-05  +/-  0.2690E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8995E-06  +/-  0.1915E-08  (   0.213 %)
accumulated results Integral      = 0.5161E-06  +/-  0.2153E-08  (   0.417 %)
accumulated results Virtual       = 0.3166E-08  +/-  0.1069E-08  (  33.763 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4170E-03  (   0.215 %)
accumulated results ABS virtual   = 0.4852E-06  +/-  0.8499E-09  (   0.175 %)
accumulated results Born          = 0.1878E-05  +/-  0.2690E-08  (   0.143 %)
accumulated results V  2          = 0.3166E-08  +/-  0.1069E-08  (  33.763 %)
accumulated results B  2          = 0.1878E-05  +/-  0.2690E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206057    23880  0.3286E-06  0.1843E-06  0.1000E+01
channel    2 :     1 T   206805    24697  0.3334E-06  0.2001E-06  0.8382E+00
channel    3 :     2 T    73900     8614  0.1189E-06  0.6296E-07  0.9516E+00
channel    4 :     2 T    73108     8343  0.1187E-06  0.6874E-07  0.9633E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9951711690955845E-007  +/-   1.9152054580495074E-009
 Final result:   5.1608104208939392E-007  +/-   2.1534864533404749E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399338
   Stability unknown:                                          0
   Stable PS point:                                       399338
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399338
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399338
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.38053727    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.24455261    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.14869738    
 Time spent in Integrated_CT :    8.98516846    
 Time spent in Virtuals :    525.964844    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.46026230    
 Time spent in N1body_prefactor :   0.691902995    
 Time spent in Adding_alphas_pdf :    9.39463520    
 Time spent in Reweight_scale :    40.2953453    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6626663    
 Time spent in Applying_cuts :    5.08291054    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.1992149    
 Time spent in Other_tasks :    22.2586060    
 Time spent in Total :    683.769348    
Time in seconds: 708



LOG file for integration channel /P0_uxu_emep/all_G1_86, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35534
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          86
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 271502
  with seed                   48
 Ranmar initialization seeds       30233       10198
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432925D+04 0.432925D+04  1.00
 muF1, muF1_reference: 0.432925D+04 0.432925D+04  1.00
 muF2, muF2_reference: 0.432925D+04 0.432925D+04  1.00
 QES,  QES_reference:  0.432925D+04 0.432925D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4825594821839966E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4825594821839966E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.3050695576779686E-006           OLP:   -4.3050695576779737E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3998087934391388E-006           OLP:   -8.3998087934390727E-006
  FINITE:
           OLP:   -1.1337858406120433E-004
           BORN:    1.2407033593573450E-003
  MOMENTA (Exyzm): 
           1   2164.6229555039645        0.0000000000000000        0.0000000000000000        2164.6229555039645        0.0000000000000000     
           2   2164.6229555039645       -0.0000000000000000       -0.0000000000000000       -2164.6229555039645        0.0000000000000000     
           3   2164.6229555039645       -2001.8798759131491       -639.55961665143320        518.68391015853297        0.0000000000000000     
           4   2164.6229555039645        2001.8798759131491        639.55961665143320       -518.68391015853297        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.3050695576779686E-006           OLP:   -4.3050695576779737E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3998087934391388E-006           OLP:   -8.3998087934390727E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8978E-06  +/-  0.2183E-08  (   0.243 %)
Integral      = 0.5114E-06  +/-  0.2395E-08  (   0.468 %)
Virtual       = -.7196E-09  +/-  0.1066E-08  ( 148.097 %)
Virtual ratio = -.1955E+00  +/-  0.4168E-03  (   0.213 %)
ABS virtual   = 0.4832E-06  +/-  0.8477E-09  (   0.175 %)
Born          = 0.1875E-05  +/-  0.2684E-08  (   0.143 %)
V  2          = -.7196E-09  +/-  0.1066E-08  ( 148.097 %)
B  2          = 0.1875E-05  +/-  0.2684E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8978E-06  +/-  0.2183E-08  (   0.243 %)
accumulated results Integral      = 0.5114E-06  +/-  0.2395E-08  (   0.468 %)
accumulated results Virtual       = -.7196E-09  +/-  0.1066E-08  ( 148.097 %)
accumulated results Virtual ratio = -.1955E+00  +/-  0.4168E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8477E-09  (   0.175 %)
accumulated results Born          = 0.1875E-05  +/-  0.2684E-08  (   0.143 %)
accumulated results V  2          = -.7196E-09  +/-  0.1066E-08  ( 148.097 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2684E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   206528    23880  0.3290E-06  0.1818E-06  0.7110E+00
channel    2 :     1 T   206411    24697  0.3315E-06  0.1986E-06  0.9213E+00
channel    3 :     2 T    73333     8614  0.1179E-06  0.6219E-07  0.9316E+00
channel    4 :     2 T    73603     8343  0.1194E-06  0.6886E-07  0.9400E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9783883661206162E-007  +/-   2.1825597440274597E-009
 Final result:   5.1136333621360601E-007  +/-   2.3950634381398576E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399096
   Stability unknown:                                          0
   Stable PS point:                                       399096
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399096
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399096
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21285319    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.66000462    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.09939241    
 Time spent in Integrated_CT :    8.91241455    
 Time spent in Virtuals :    580.882141    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.22909498    
 Time spent in N1body_prefactor :   0.586367607    
 Time spent in Adding_alphas_pdf :    10.2599888    
 Time spent in Reweight_scale :    37.7092438    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9971275    
 Time spent in Applying_cuts :    4.89767838    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6837540    
 Time spent in Other_tasks :    20.8453979    
 Time spent in Total :    734.975464    
Time in seconds: 746



LOG file for integration channel /P0_uxu_emep/all_G1_87, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35535
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          87
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 274659
  with seed                   48
 Ranmar initialization seeds       30233       13355
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433255D+04 0.433255D+04  1.00
 muF1, muF1_reference: 0.433255D+04 0.433255D+04  1.00
 muF2, muF2_reference: 0.433255D+04 0.433255D+04  1.00
 QES,  QES_reference:  0.433255D+04 0.433255D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4820211210810811E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4820211210810811E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6924007893765064E-006           OLP:   -3.6924007893765136E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8678181181483825E-006           OLP:   -7.8678181181483182E-006
  FINITE:
           OLP:   -7.4728624474685985E-005
           BORN:    1.0641347374522093E-003
  MOMENTA (Exyzm): 
           1   2166.2772900779646        0.0000000000000000        0.0000000000000000        2166.2772900779646        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2166.2772900779646       -0.0000000000000000       -0.0000000000000000       -2166.2772900779646        0.0000000000000000     
           3   2166.2772900779646       -1686.8711355649773       -1157.2889027313242        712.67486634522334        0.0000000000000000     
           4   2166.2772900779646        1686.8711355649773        1157.2889027313242       -712.67486634522334        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6924007893765064E-006           OLP:   -3.6924007893765136E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8678181181483825E-006           OLP:   -7.8678181181483182E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8972E-06  +/-  0.1977E-08  (   0.220 %)
Integral      = 0.5157E-06  +/-  0.2207E-08  (   0.428 %)
Virtual       = 0.1678E-08  +/-  0.1066E-08  (  63.554 %)
Virtual ratio = -.1944E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4837E-06  +/-  0.8482E-09  (   0.175 %)
Born          = 0.1876E-05  +/-  0.2694E-08  (   0.144 %)
V  2          = 0.1678E-08  +/-  0.1066E-08  (  63.554 %)
B  2          = 0.1876E-05  +/-  0.2694E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8972E-06  +/-  0.1977E-08  (   0.220 %)
accumulated results Integral      = 0.5157E-06  +/-  0.2207E-08  (   0.428 %)
accumulated results Virtual       = 0.1678E-08  +/-  0.1066E-08  (  63.554 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8482E-09  (   0.175 %)
accumulated results Born          = 0.1876E-05  +/-  0.2694E-08  (   0.144 %)
accumulated results V  2          = 0.1678E-08  +/-  0.1066E-08  (  63.554 %)
accumulated results B  2          = 0.1876E-05  +/-  0.2694E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206318    23880  0.3275E-06  0.1857E-06  0.9880E+00
channel    2 :     1 T   206676    24697  0.3339E-06  0.2002E-06  0.8060E+00
channel    3 :     2 T    73327     8614  0.1175E-06  0.6218E-07  0.9449E+00
channel    4 :     2 T    73538     8343  0.1183E-06  0.6751E-07  0.9740E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9716918323730230E-007  +/-   1.9765514080206507E-009
 Final result:   5.1565179407945152E-007  +/-   2.2066951957834149E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399245
   Stability unknown:                                          0
   Stable PS point:                                       399245
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399245
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399245
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23371303    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.59158516    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.12306213    
 Time spent in Integrated_CT :    8.90844727    
 Time spent in Virtuals :    582.168884    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.21262360    
 Time spent in N1body_prefactor :   0.589712679    
 Time spent in Adding_alphas_pdf :    10.2922869    
 Time spent in Reweight_scale :    37.6246033    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3769417    
 Time spent in Applying_cuts :    4.85884666    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6109505    
 Time spent in Other_tasks :    20.7219238    
 Time spent in Total :    736.313660    
Time in seconds: 747



LOG file for integration channel /P0_uxu_emep/all_G1_88, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35556
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          88
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 277816
  with seed                   48
 Ranmar initialization seeds       30233       16512
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430069D+04 0.430069D+04  1.00
 muF1, muF1_reference: 0.430069D+04 0.430069D+04  1.00
 muF2, muF2_reference: 0.430069D+04 0.430069D+04  1.00
 QES,  QES_reference:  0.430069D+04 0.430069D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4872264710377875E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4872264710377875E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0740390898080289E-006           OLP:   -4.0740390898080221E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2063433801616350E-006           OLP:   -8.2063433801616485E-006
  FINITE:
           OLP:   -9.7781089135339630E-005
           BORN:    1.1741213276944842E-003
  MOMENTA (Exyzm): 
           1   2150.3441031924067        0.0000000000000000        0.0000000000000000        2150.3441031924067        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2150.3441031924067       -0.0000000000000000       -0.0000000000000000       -2150.3441031924067        0.0000000000000000     
           3   2150.3441031924067       -2058.3630550479843       -214.59368749184540        584.01270965325546        0.0000000000000000     
           4   2150.3441031924067        2058.3630550479843        214.59368749184540       -584.01270965325546        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0740390898080289E-006           OLP:   -4.0740390898080221E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2063433801616367E-006           OLP:   -8.2063433801616485E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8958E-06  +/-  0.1781E-08  (   0.199 %)
Integral      = 0.5098E-06  +/-  0.2035E-08  (   0.399 %)
Virtual       = -.9600E-09  +/-  0.1067E-08  ( 111.149 %)
Virtual ratio = -.1953E+00  +/-  0.4172E-03  (   0.214 %)
ABS virtual   = 0.4835E-06  +/-  0.8492E-09  (   0.176 %)
Born          = 0.1875E-05  +/-  0.2688E-08  (   0.143 %)
V  2          = -.9600E-09  +/-  0.1067E-08  ( 111.149 %)
B  2          = 0.1875E-05  +/-  0.2688E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8958E-06  +/-  0.1781E-08  (   0.199 %)
accumulated results Integral      = 0.5098E-06  +/-  0.2035E-08  (   0.399 %)
accumulated results Virtual       = -.9600E-09  +/-  0.1067E-08  ( 111.149 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4172E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8492E-09  (   0.176 %)
accumulated results Born          = 0.1875E-05  +/-  0.2688E-08  (   0.143 %)
accumulated results V  2          = -.9600E-09  +/-  0.1067E-08  ( 111.149 %)
accumulated results B  2          = 0.1875E-05  +/-  0.2688E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206118    23880  0.3281E-06  0.1840E-06  0.1000E+01
channel    2 :     1 T   206899    24697  0.3313E-06  0.1983E-06  0.9670E+00
channel    3 :     2 T    73630     8614  0.1179E-06  0.6059E-07  0.9364E+00
channel    4 :     2 T    73225     8343  0.1186E-06  0.6693E-07  0.9762E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9581092704569457E-007  +/-   1.7809358924585660E-009
 Final result:   5.0977119263843856E-007  +/-   2.0349205352597151E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399022
   Stability unknown:                                          0
   Stable PS point:                                       399022
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399022
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399022
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22274339    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.62950325    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.18066692    
 Time spent in Integrated_CT :    8.88708496    
 Time spent in Virtuals :    583.718323    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.16553402    
 Time spent in N1body_prefactor :   0.589013934    
 Time spent in Adding_alphas_pdf :    10.3281393    
 Time spent in Reweight_scale :    37.6658173    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3852930    
 Time spent in Applying_cuts :    4.95467567    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6870193    
 Time spent in Other_tasks :    20.8519287    
 Time spent in Total :    738.265686    
Time in seconds: 750



LOG file for integration channel /P0_uxu_emep/all_G1_89, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35540
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          89
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 280973
  with seed                   48
 Ranmar initialization seeds       30233       19669
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431937D+04 0.431937D+04  1.00
 muF1, muF1_reference: 0.431937D+04 0.431937D+04  1.00
 muF2, muF2_reference: 0.431937D+04 0.431937D+04  1.00
 QES,  QES_reference:  0.431937D+04 0.431937D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4841688830335942E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4841688830335942E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9257619068953310E-006           OLP:   -3.9257619068953192E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0773903395912237E-006           OLP:   -8.0773903395912541E-006
  FINITE:
           OLP:   -8.8906423524614473E-005
           BORN:    1.1313884527685200E-003
  MOMENTA (Exyzm): 
           1   2159.6863057278056        0.0000000000000000        0.0000000000000000        2159.6863057278056        0.0000000000000000     
           2   2159.6863057278056       -0.0000000000000000       -0.0000000000000000       -2159.6863057278056        0.0000000000000000     
           3   2159.6863057278056       -2021.2317213396091       -421.97657095305277        633.09007365890727        0.0000000000000000     
           4   2159.6863057278056        2021.2317213396091        421.97657095305277       -633.09007365890727        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9257619068953310E-006           OLP:   -3.9257619068953192E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0773903395912237E-006           OLP:   -8.0773903395912541E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0657822713255882E-006           3
ABS integral  = 0.8945E-06  +/-  0.1803E-08  (   0.202 %)
Integral      = 0.5131E-06  +/-  0.2051E-08  (   0.400 %)
Virtual       = 0.6689E-09  +/-  0.1065E-08  ( 159.188 %)
Virtual ratio = -.1948E+00  +/-  0.4171E-03  (   0.214 %)
ABS virtual   = 0.4835E-06  +/-  0.8464E-09  (   0.175 %)
Born          = 0.1874E-05  +/-  0.2690E-08  (   0.144 %)
V  2          = 0.6689E-09  +/-  0.1065E-08  ( 159.188 %)
B  2          = 0.1874E-05  +/-  0.2690E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8945E-06  +/-  0.1803E-08  (   0.202 %)
accumulated results Integral      = 0.5131E-06  +/-  0.2051E-08  (   0.400 %)
accumulated results Virtual       = 0.6689E-09  +/-  0.1065E-08  ( 159.188 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4171E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8464E-09  (   0.175 %)
accumulated results Born          = 0.1874E-05  +/-  0.2690E-08  (   0.144 %)
accumulated results V  2          = 0.6689E-09  +/-  0.1065E-08  ( 159.188 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2690E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206121    23880  0.3264E-06  0.1853E-06  0.9646E+00
channel    2 :     1 T   207226    24697  0.3339E-06  0.1986E-06  0.9686E+00
channel    3 :     2 T    73404     8614  0.1165E-06  0.6203E-07  0.9314E+00
channel    4 :     2 T    73119     8343  0.1177E-06  0.6720E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9448753866066714E-007  +/-   1.8026802572365357E-009
 Final result:   5.1308523396595904E-007  +/-   2.0514723188388152E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399025
   Stability unknown:                                          0
   Stable PS point:                                       399025
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399025
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399025
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22162735    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.69596481    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.16143942    
 Time spent in Integrated_CT :    8.89727783    
 Time spent in Virtuals :    583.097839    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.34979153    
 Time spent in N1body_prefactor :   0.591809154    
 Time spent in Adding_alphas_pdf :    10.3652868    
 Time spent in Reweight_scale :    37.7789879    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1658068    
 Time spent in Applying_cuts :    4.91600370    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.7418060    
 Time spent in Other_tasks :    20.7750244    
 Time spent in Total :    737.758728    
Time in seconds: 749



LOG file for integration channel /P0_uxu_emep/all_G1_90, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35531
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          90
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 284130
  with seed                   48
 Ranmar initialization seeds       30233       22826
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430449D+04 0.430449D+04  1.00
 muF1, muF1_reference: 0.430449D+04 0.430449D+04  1.00
 muF2, muF2_reference: 0.430449D+04 0.430449D+04  1.00
 QES,  QES_reference:  0.430449D+04 0.430449D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4866026350975515E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4866026350975515E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0534992334277409E-006           OLP:   -4.0534992334277486E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1886936679139351E-006           OLP:   -8.1886936679139113E-006
  FINITE:
           OLP:   -9.6579280783915688E-005
           BORN:    1.1682018254726696E-003
  MOMENTA (Exyzm): 
           1   2152.2462975937897        0.0000000000000000        0.0000000000000000        2152.2462975937897        0.0000000000000000     
           2   2152.2462975937897       -0.0000000000000000       -0.0000000000000000       -2152.2462975937897        0.0000000000000000     
           3   2152.2462975937897       -1880.1857240307399       -864.85234526505394        590.84362529074861        0.0000000000000000     
           4   2152.2462975937897        1880.1857240307399        864.85234526505394       -590.84362529074861        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0534992334277409E-006           OLP:   -4.0534992334277486E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1886936679139351E-006           OLP:   -8.1886936679139113E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8958E-06  +/-  0.2007E-08  (   0.224 %)
Integral      = 0.5107E-06  +/-  0.2235E-08  (   0.438 %)
Virtual       = -.2741E-09  +/-  0.1064E-08  ( 388.310 %)
Virtual ratio = -.1950E+00  +/-  0.4176E-03  (   0.214 %)
ABS virtual   = 0.4833E-06  +/-  0.8458E-09  (   0.175 %)
Born          = 0.1873E-05  +/-  0.2684E-08  (   0.143 %)
V  2          = -.2741E-09  +/-  0.1064E-08  ( 388.310 %)
B  2          = 0.1873E-05  +/-  0.2684E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8958E-06  +/-  0.2007E-08  (   0.224 %)
accumulated results Integral      = 0.5107E-06  +/-  0.2235E-08  (   0.438 %)
accumulated results Virtual       = -.2741E-09  +/-  0.1064E-08  ( 388.310 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4176E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8458E-09  (   0.175 %)
accumulated results Born          = 0.1873E-05  +/-  0.2684E-08  (   0.143 %)
accumulated results V  2          = -.2741E-09  +/-  0.1064E-08  ( 388.310 %)
accumulated results B  2          = 0.1873E-05  +/-  0.2684E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206236    23880  0.3262E-06  0.1841E-06  0.9586E+00
channel    2 :     1 T   206836    24697  0.3324E-06  0.1966E-06  0.8219E+00
channel    3 :     2 T    73771     8614  0.1183E-06  0.6254E-07  0.9439E+00
channel    4 :     2 T    73028     8343  0.1188E-06  0.6748E-07  0.8850E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9578764902497577E-007  +/-   2.0072847164249800E-009
 Final result:   5.1070306548789017E-007  +/-   2.2353048689838218E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399186
   Stability unknown:                                          0
   Stable PS point:                                       399186
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399186
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399186
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24319756    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.78095198    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.22334671    
 Time spent in Integrated_CT :    9.04418945    
 Time spent in Virtuals :    582.417847    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.36034203    
 Time spent in N1body_prefactor :   0.623896122    
 Time spent in Adding_alphas_pdf :    10.5716667    
 Time spent in Reweight_scale :    38.2578850    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1595325    
 Time spent in Applying_cuts :    4.88975143    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.1386719    
 Time spent in Other_tasks :    20.8367920    
 Time spent in Total :    738.548096    
Time in seconds: 750



LOG file for integration channel /P0_uxu_emep/all_G1_91, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35525
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          91
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 287287
  with seed                   48
 Ranmar initialization seeds       30233       25983
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423914D+04 0.423914D+04  1.00
 muF1, muF1_reference: 0.423914D+04 0.423914D+04  1.00
 muF2, muF2_reference: 0.423914D+04 0.423914D+04  1.00
 QES,  QES_reference:  0.423914D+04 0.423914D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4974100445115904E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4974100445115904E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0381389152754807E-006           OLP:   -4.0381389152754773E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1754598763306965E-006           OLP:   -8.1754598763308219E-006
  FINITE:
           OLP:   -9.3899860393584087E-005
           BORN:    1.1637750448882959E-003
  MOMENTA (Exyzm): 
           1   2119.5717141895129        0.0000000000000000        0.0000000000000000        2119.5717141895129        0.0000000000000000     
           2   2119.5717141895129       -0.0000000000000000       -0.0000000000000000       -2119.5717141895129        0.0000000000000000     
           3   2119.5717141895129       -1504.4441135490374       -1373.0230794230622        586.54904668879351        0.0000000000000000     
           4   2119.5717141895129        1504.4441135490374        1373.0230794230622       -586.54904668879351        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0381389152754807E-006           OLP:   -4.0381389152754773E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.1754598763306965E-006           OLP:   -8.1754598763308219E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8968E-06  +/-  0.1813E-08  (   0.202 %)
Integral      = 0.5139E-06  +/-  0.2062E-08  (   0.401 %)
Virtual       = 0.1031E-08  +/-  0.1064E-08  ( 103.267 %)
Virtual ratio = -.1946E+00  +/-  0.4175E-03  (   0.215 %)
ABS virtual   = 0.4832E-06  +/-  0.8461E-09  (   0.175 %)
Born          = 0.1872E-05  +/-  0.2683E-08  (   0.143 %)
V  2          = 0.1031E-08  +/-  0.1064E-08  ( 103.267 %)
B  2          = 0.1872E-05  +/-  0.2683E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8968E-06  +/-  0.1813E-08  (   0.202 %)
accumulated results Integral      = 0.5139E-06  +/-  0.2062E-08  (   0.401 %)
accumulated results Virtual       = 0.1031E-08  +/-  0.1064E-08  ( 103.267 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4175E-03  (   0.215 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8461E-09  (   0.175 %)
accumulated results Born          = 0.1872E-05  +/-  0.2683E-08  (   0.143 %)
accumulated results V  2          = 0.1031E-08  +/-  0.1064E-08  ( 103.267 %)
accumulated results B  2          = 0.1872E-05  +/-  0.2683E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206018    23880  0.3291E-06  0.1849E-06  0.9675E+00
channel    2 :     1 T   206529    24697  0.3304E-06  0.1986E-06  0.9810E+00
channel    3 :     2 T    74012     8614  0.1189E-06  0.6253E-07  0.8957E+00
channel    4 :     2 T    73311     8343  0.1185E-06  0.6781E-07  0.9763E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9683890819987377E-007  +/-   1.8126003241602026E-009
 Final result:   5.1390490956406643E-007  +/-   2.0616552132938403E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398785
   Stability unknown:                                          0
   Stable PS point:                                       398785
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398785
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398785
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21653450    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.59808683    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.15340757    
 Time spent in Integrated_CT :    8.90167236    
 Time spent in Virtuals :    583.890930    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.22194052    
 Time spent in N1body_prefactor :   0.591674328    
 Time spent in Adding_alphas_pdf :    10.2279997    
 Time spent in Reweight_scale :    37.9713554    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2296686    
 Time spent in Applying_cuts :    4.96540976    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.7538033    
 Time spent in Other_tasks :    20.9469604    
 Time spent in Total :    738.669434    
Time in seconds: 750



LOG file for integration channel /P0_uxu_emep/all_G1_92, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35550
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          92
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 290444
  with seed                   48
 Ranmar initialization seeds       30233       29140
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430982D+04 0.430982D+04  1.00
 muF1, muF1_reference: 0.430982D+04 0.430982D+04  1.00
 muF2, muF2_reference: 0.430982D+04 0.430982D+04  1.00
 QES,  QES_reference:  0.430982D+04 0.430982D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4857301718594574E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4857301718594574E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6419922882103475E-006           OLP:   -3.6419922882103496E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8216341129590360E-006           OLP:   -7.8216341129590326E-006
  FINITE:
           OLP:   -7.1129257104314499E-005
           BORN:    1.0496072145169573E-003
  MOMENTA (Exyzm): 
           1   2154.9099401278522        0.0000000000000000        0.0000000000000000        2154.9099401278522        0.0000000000000000     
           2   2154.9099401278522       -0.0000000000000000       -0.0000000000000000       -2154.9099401278522        0.0000000000000000     
           3   2154.9099401278522       -1858.6428363555069       -813.29786066619977        726.38161235122413        0.0000000000000000     
           4   2154.9099401278522        1858.6428363555069        813.29786066619977       -726.38161235122413        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6419922882103475E-006           OLP:   -3.6419922882103496E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.8216341129590360E-006           OLP:   -7.8216341129590326E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8967E-06  +/-  0.1763E-08  (   0.197 %)
Integral      = 0.5170E-06  +/-  0.2016E-08  (   0.390 %)
Virtual       = 0.2393E-08  +/-  0.1067E-08  (  44.585 %)
Virtual ratio = -.1943E+00  +/-  0.4172E-03  (   0.215 %)
ABS virtual   = 0.4837E-06  +/-  0.8490E-09  (   0.176 %)
Born          = 0.1872E-05  +/-  0.2678E-08  (   0.143 %)
V  2          = 0.2393E-08  +/-  0.1067E-08  (  44.585 %)
B  2          = 0.1872E-05  +/-  0.2678E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8967E-06  +/-  0.1763E-08  (   0.197 %)
accumulated results Integral      = 0.5170E-06  +/-  0.2016E-08  (   0.390 %)
accumulated results Virtual       = 0.2393E-08  +/-  0.1067E-08  (  44.585 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4172E-03  (   0.215 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8490E-09  (   0.176 %)
accumulated results Born          = 0.1872E-05  +/-  0.2678E-08  (   0.143 %)
accumulated results V  2          = 0.2393E-08  +/-  0.1067E-08  (  44.585 %)
accumulated results B  2          = 0.1872E-05  +/-  0.2678E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206658    23880  0.3279E-06  0.1858E-06  0.1000E+01
channel    2 :     1 T   206544    24697  0.3317E-06  0.2015E-06  0.9917E+00
channel    3 :     2 T    73549     8614  0.1180E-06  0.6245E-07  0.9316E+00
channel    4 :     2 T    73121     8343  0.1191E-06  0.6723E-07  0.9850E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9667342173702842E-007  +/-   1.7628178997042098E-009
 Final result:   5.1700937226260149E-007  +/-   2.0164778047701349E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398908
   Stability unknown:                                          0
   Stable PS point:                                       398908
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398908
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398908
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24461985    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.68638515    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.17653036    
 Time spent in Integrated_CT :    8.96697998    
 Time spent in Virtuals :    585.101074    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.25563478    
 Time spent in N1body_prefactor :   0.599056065    
 Time spent in Adding_alphas_pdf :    10.4253120    
 Time spent in Reweight_scale :    38.2402191    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4907703    
 Time spent in Applying_cuts :    4.97733068    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.9621735    
 Time spent in Other_tasks :    20.8549194    
 Time spent in Total :    740.981018    
Time in seconds: 752



LOG file for integration channel /P0_uxu_emep/all_G1_93, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35549
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          93
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 293601
  with seed                   48
 Ranmar initialization seeds       30233        2216
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.420179D+04 0.420179D+04  1.00
 muF1, muF1_reference: 0.420179D+04 0.420179D+04  1.00
 muF2, muF2_reference: 0.420179D+04 0.420179D+04  1.00
 QES,  QES_reference:  0.420179D+04 0.420179D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5036765897310176E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5036765897310176E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8907739527812096E-006           OLP:   -3.8907739527812020E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0464726810689471E-006           OLP:   -8.0464726810689437E-006
  FINITE:
           OLP:   -8.3791347604292001E-005
           BORN:    1.1213050681391100E-003
  MOMENTA (Exyzm): 
           1   2100.8945283537032        0.0000000000000000        0.0000000000000000        2100.8945283537032        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2100.8945283537032       -0.0000000000000000       -0.0000000000000000       -2100.8945283537032        0.0000000000000000     
           3   2100.8945283537032       -1872.9031508233322       -716.30378689335657        626.81775005562815        0.0000000000000000     
           4   2100.8945283537032        1872.9031508233322        716.30378689335657       -626.81775005562815        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8907739527812096E-006           OLP:   -3.8907739527812020E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0464726810689471E-006           OLP:   -8.0464726810689437E-006
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.1026859283447266E-006           4
ABS integral  = 0.8949E-06  +/-  0.2889E-08  (   0.323 %)
Integral      = 0.5152E-06  +/-  0.3050E-08  (   0.592 %)
Virtual       = -.4774E-09  +/-  0.1063E-08  ( 222.573 %)
Virtual ratio = -.1954E+00  +/-  0.4170E-03  (   0.213 %)
ABS virtual   = 0.4826E-06  +/-  0.8444E-09  (   0.175 %)
Born          = 0.1872E-05  +/-  0.2677E-08  (   0.143 %)
V  2          = -.4774E-09  +/-  0.1063E-08  ( 222.573 %)
B  2          = 0.1872E-05  +/-  0.2677E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8949E-06  +/-  0.2889E-08  (   0.323 %)
accumulated results Integral      = 0.5152E-06  +/-  0.3050E-08  (   0.592 %)
accumulated results Virtual       = -.4774E-09  +/-  0.1063E-08  ( 222.573 %)
accumulated results Virtual ratio = -.1954E+00  +/-  0.4170E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4826E-06  +/-  0.8444E-09  (   0.175 %)
accumulated results Born          = 0.1872E-05  +/-  0.2677E-08  (   0.143 %)
accumulated results V  2          = -.4774E-09  +/-  0.1063E-08  ( 222.573 %)
accumulated results B  2          = 0.1872E-05  +/-  0.2677E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206276    23880  0.3276E-06  0.1862E-06  0.4562E+00
channel    2 :     1 T   206661    24697  0.3322E-06  0.1991E-06  0.9882E+00
channel    3 :     2 T    73755     8614  0.1179E-06  0.6201E-07  0.9402E+00
channel    4 :     2 T    73183     8343  0.1172E-06  0.6787E-07  0.9915E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9485925128277548E-007  +/-   2.8890313621608035E-009
 Final result:   5.1520659401442301E-007  +/-   3.0500289442052749E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399009
   Stability unknown:                                          0
   Stable PS point:                                       399009
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399009
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399009
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24275017    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.81668568    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.30068398    
 Time spent in Integrated_CT :    9.14166260    
 Time spent in Virtuals :    582.567688    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.35555553    
 Time spent in N1body_prefactor :   0.593711138    
 Time spent in Adding_alphas_pdf :    10.5909567    
 Time spent in Reweight_scale :    38.5756073    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8122463    
 Time spent in Applying_cuts :    4.97203064    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.5330963    
 Time spent in Other_tasks :    21.3622437    
 Time spent in Total :    740.864868    
Time in seconds: 752



LOG file for integration channel /P0_uxu_emep/all_G1_94, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35568
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          94
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 296758
  with seed                   48
 Ranmar initialization seeds       30233        5373
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434856D+04 0.434856D+04  1.00
 muF1, muF1_reference: 0.434856D+04 0.434856D+04  1.00
 muF2, muF2_reference: 0.434856D+04 0.434856D+04  1.00
 QES,  QES_reference:  0.434856D+04 0.434856D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4794230006109824E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4794230006109810E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3479521831212268E-006           OLP:   -3.3479521831212263E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5479028545888028E-006           OLP:   -7.5479028545888266E-006
  FINITE:
           OLP:   -5.4301063901803629E-005
           BORN:    9.6486606427950781E-004
  MOMENTA (Exyzm): 
           1   2174.2821018365062        0.0000000000000000        0.0000000000000000        2174.2821018365062        0.0000000000000000     
           2   2174.2821018365062       -0.0000000000000000       -0.0000000000000000       -2174.2821018365062        0.0000000000000000     
           3   2174.2821018365062       -1690.2995964796187       -1077.5319304216166        842.20833018278699        0.0000000000000000     
           4   2174.2821018365062        1690.2995964796187        1077.5319304216166       -842.20833018278699        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3479521831212268E-006           OLP:   -3.3479521831212263E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5479028545888020E-006           OLP:   -7.5479028545888266E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8980E-06  +/-  0.2141E-08  (   0.238 %)
Integral      = 0.5164E-06  +/-  0.2355E-08  (   0.456 %)
Virtual       = 0.1195E-08  +/-  0.1070E-08  (  89.490 %)
Virtual ratio = -.1945E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4848E-06  +/-  0.8512E-09  (   0.176 %)
Born          = 0.1879E-05  +/-  0.2699E-08  (   0.144 %)
V  2          = 0.1195E-08  +/-  0.1070E-08  (  89.490 %)
B  2          = 0.1879E-05  +/-  0.2699E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8980E-06  +/-  0.2141E-08  (   0.238 %)
accumulated results Integral      = 0.5164E-06  +/-  0.2355E-08  (   0.456 %)
accumulated results Virtual       = 0.1195E-08  +/-  0.1070E-08  (  89.490 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4848E-06  +/-  0.8512E-09  (   0.176 %)
accumulated results Born          = 0.1879E-05  +/-  0.2699E-08  (   0.144 %)
accumulated results V  2          = 0.1195E-08  +/-  0.1070E-08  (  89.490 %)
accumulated results B  2          = 0.1879E-05  +/-  0.2699E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   206535    23880  0.3271E-06  0.1868E-06  0.9962E+00
channel    2 :     1 T   206092    24697  0.3323E-06  0.1981E-06  0.7330E+00
channel    3 :     2 T    73552     8614  0.1187E-06  0.6238E-07  0.8206E+00
channel    4 :     2 T    73698     8343  0.1199E-06  0.6911E-07  0.9706E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9800252651742741E-007  +/-   2.1405344405674329E-009
 Final result:   5.1637884764155405E-007  +/-   2.3549878422073565E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399389
   Stability unknown:                                          0
   Stable PS point:                                       399389
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399389
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399389
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22904885    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.59841442    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.07867479    
 Time spent in Integrated_CT :    8.79687500    
 Time spent in Virtuals :    585.047607    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.10823870    
 Time spent in N1body_prefactor :   0.577020705    
 Time spent in Adding_alphas_pdf :    10.1941566    
 Time spent in Reweight_scale :    37.2555542    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2620058    
 Time spent in Applying_cuts :    4.91557980    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.4184113    
 Time spent in Other_tasks :    20.5110474    
 Time spent in Total :    737.992615    
Time in seconds: 749



LOG file for integration channel /P0_uxu_emep/all_G1_95, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35567
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          95
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 299915
  with seed                   48
 Ranmar initialization seeds       30233        8530
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422500D+04 0.422500D+04  1.00
 muF1, muF1_reference: 0.422500D+04 0.422500D+04  1.00
 muF2, muF2_reference: 0.422500D+04 0.422500D+04  1.00
 QES,  QES_reference:  0.422500D+04 0.422500D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4997742713863794E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4997742713863794E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9214376368013338E-006           OLP:   -3.9214376368013304E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0735893273630925E-006           OLP:   -8.0735893273630654E-006
  FINITE:
           OLP:   -8.6267478754704723E-005
           BORN:    1.1301422158934800E-003
  MOMENTA (Exyzm): 
           1   2112.5022415056478        0.0000000000000000        0.0000000000000000        2112.5022415056478        0.0000000000000000     
           2   2112.5022415056478       -0.0000000000000000       -0.0000000000000000       -2112.5022415056478        0.0000000000000000     
           3   2112.5022415056478       -2017.5003423142384       -84.805130026035172        620.61757874683474        0.0000000000000000     
           4   2112.5022415056478        2017.5003423142384        84.805130026035172       -620.61757874683474        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9214376368013338E-006           OLP:   -3.9214376368013304E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.0735893273630942E-006           OLP:   -8.0735893273630654E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.1771917343139648E-006           3
ABS integral  = 0.8969E-06  +/-  0.1890E-08  (   0.211 %)
Integral      = 0.5139E-06  +/-  0.2130E-08  (   0.415 %)
Virtual       = 0.7240E-09  +/-  0.1067E-08  ( 147.370 %)
Virtual ratio = -.1951E+00  +/-  0.4168E-03  (   0.214 %)
ABS virtual   = 0.4835E-06  +/-  0.8490E-09  (   0.176 %)
Born          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
V  2          = 0.7240E-09  +/-  0.1067E-08  ( 147.370 %)
B  2          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8969E-06  +/-  0.1890E-08  (   0.211 %)
accumulated results Integral      = 0.5139E-06  +/-  0.2130E-08  (   0.415 %)
accumulated results Virtual       = 0.7240E-09  +/-  0.1067E-08  ( 147.370 %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4168E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8490E-09  (   0.176 %)
accumulated results Born          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
accumulated results V  2          = 0.7240E-09  +/-  0.1067E-08  ( 147.370 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2685E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   205791    23880  0.3259E-06  0.1843E-06  0.9541E+00
channel    2 :     1 T   207026    24697  0.3333E-06  0.2003E-06  0.9725E+00
channel    3 :     2 T    73930     8614  0.1184E-06  0.6272E-07  0.9276E+00
channel    4 :     2 T    73126     8343  0.1192E-06  0.6662E-07  0.8312E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9691186985896691E-007  +/-   1.8903360841523348E-009
 Final result:   5.1391094357990486E-007  +/-   2.1303744919552981E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399125
   Stability unknown:                                          0
   Stable PS point:                                       399125
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399125
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399125
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20605409    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.60891485    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.13277197    
 Time spent in Integrated_CT :    8.85394287    
 Time spent in Virtuals :    583.391663    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.19690228    
 Time spent in N1body_prefactor :   0.576109231    
 Time spent in Adding_alphas_pdf :    10.1734104    
 Time spent in Reweight_scale :    37.4948692    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3528595    
 Time spent in Applying_cuts :    4.93641281    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.7850685    
 Time spent in Other_tasks :    20.4602051    
 Time spent in Total :    737.169189    
Time in seconds: 748



LOG file for integration channel /P0_uxu_emep/all_G1_96, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35569
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          96
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 303072
  with seed                   48
 Ranmar initialization seeds       30233       11687
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438542D+04 0.438542D+04  1.00
 muF1, muF1_reference: 0.438542D+04 0.438542D+04  1.00
 muF2, muF2_reference: 0.438542D+04 0.438542D+04  1.00
 QES,  QES_reference:  0.438542D+04 0.438542D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4734845782713860E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4734845782713860E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9927475309321159E-006           OLP:   -3.9927475309321099E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1360733111632412E-006           OLP:   -8.1360733111631616E-006
  FINITE:
           OLP:   -9.4801617582791618E-005
           BORN:    1.1506934344087966E-003
  MOMENTA (Exyzm): 
           1   2192.7099064370286        0.0000000000000000        0.0000000000000000        2192.7099064370286        0.0000000000000000     
           2   2192.7099064370286       -0.0000000000000000       -0.0000000000000000       -2192.7099064370286        0.0000000000000000     
           3   2192.7099064370286       -1690.8678460035267       -1250.2291393603341        621.18415967633575        0.0000000000000000     
           4   2192.7099064370286        1690.8678460035267        1250.2291393603341       -621.18415967633575        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9927475309321159E-006           OLP:   -3.9927475309321099E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.1360733111632412E-006           OLP:   -8.1360733111631616E-006
 REAL 2: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8965E-06  +/-  0.1873E-08  (   0.209 %)
Integral      = 0.5149E-06  +/-  0.2114E-08  (   0.411 %)
Virtual       = -.1027E-08  +/-  0.1067E-08  ( 103.865 %)
Virtual ratio = -.1950E+00  +/-  0.4170E-03  (   0.214 %)
ABS virtual   = 0.4839E-06  +/-  0.8483E-09  (   0.175 %)
Born          = 0.1877E-05  +/-  0.2694E-08  (   0.144 %)
V  2          = -.1027E-08  +/-  0.1067E-08  ( 103.865 %)
B  2          = 0.1877E-05  +/-  0.2694E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8965E-06  +/-  0.1873E-08  (   0.209 %)
accumulated results Integral      = 0.5149E-06  +/-  0.2114E-08  (   0.411 %)
accumulated results Virtual       = -.1027E-08  +/-  0.1067E-08  ( 103.865 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4170E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8483E-09  (   0.175 %)
accumulated results Born          = 0.1877E-05  +/-  0.2694E-08  (   0.144 %)
accumulated results V  2          = -.1027E-08  +/-  0.1067E-08  ( 103.865 %)
accumulated results B  2          = 0.1877E-05  +/-  0.2694E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206152    23880  0.3267E-06  0.1868E-06  0.1000E+01
channel    2 :     1 T   206825    24697  0.3332E-06  0.1990E-06  0.8955E+00
channel    3 :     2 T    73484     8614  0.1177E-06  0.6163E-07  0.8947E+00
channel    4 :     2 T    73411     8343  0.1189E-06  0.6745E-07  0.9670E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9654320687098941E-007  +/-   1.8728021417911744E-009
 Final result:   5.1485602001522357E-007  +/-   2.1141417398585531E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    399047
   Stability unknown:                                          0
   Stable PS point:                                       399047
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 399047
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       399047
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21174979    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.56090260    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.04292297    
 Time spent in Integrated_CT :    8.85583496    
 Time spent in Virtuals :    581.625916    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.12743092    
 Time spent in N1body_prefactor :   0.604762137    
 Time spent in Adding_alphas_pdf :    10.1510792    
 Time spent in Reweight_scale :    37.4162788    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8895741    
 Time spent in Applying_cuts :    4.86601686    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.4516411    
 Time spent in Other_tasks :    20.5246582    
 Time spent in Total :    734.328735    
Time in seconds: 745



LOG file for integration channel /P0_uxu_emep/all_G1_97, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35526
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          97
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 306229
  with seed                   48
 Ranmar initialization seeds       30233       14844
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432895D+04 0.432895D+04  1.00
 muF1, muF1_reference: 0.432895D+04 0.432895D+04  1.00
 muF2, muF2_reference: 0.432895D+04 0.432895D+04  1.00
 QES,  QES_reference:  0.432895D+04 0.432895D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4826070214486687E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4826070214486687E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0225880390284872E-006           OLP:   -4.0225880390284829E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1619972320960409E-006           OLP:   -8.1619972320959613E-006
  FINITE:
           OLP:   -9.5255776989891950E-005
           BORN:    1.1592933462439186E-003
  MOMENTA (Exyzm): 
           1   2164.4769434010573        0.0000000000000000        0.0000000000000000        2164.4769434010573        0.0000000000000000     
           2   2164.4769434010573       -0.0000000000000000       -0.0000000000000000       -2164.4769434010573        0.0000000000000000     
           3   2164.4769434010573       -1712.2064166098633       -1178.4345083908518        603.82260215099996        0.0000000000000000     
           4   2164.4769434010573        1712.2064166098633        1178.4345083908518       -603.82260215099996        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0225880390284872E-006           OLP:   -4.0225880390284829E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1619972320960392E-006           OLP:   -8.1619972320959613E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.8937E-06  +/-  0.1885E-08  (   0.211 %)
Integral      = 0.5110E-06  +/-  0.2125E-08  (   0.416 %)
Virtual       = 0.1366E-08  +/-  0.1062E-08  (  77.772 %)
Virtual ratio = -.1944E+00  +/-  0.4170E-03  (   0.215 %)
ABS virtual   = 0.4828E-06  +/-  0.8437E-09  (   0.175 %)
Born          = 0.1872E-05  +/-  0.2682E-08  (   0.143 %)
V  2          = 0.1366E-08  +/-  0.1062E-08  (  77.772 %)
B  2          = 0.1872E-05  +/-  0.2682E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8937E-06  +/-  0.1885E-08  (   0.211 %)
accumulated results Integral      = 0.5110E-06  +/-  0.2125E-08  (   0.416 %)
accumulated results Virtual       = 0.1366E-08  +/-  0.1062E-08  (  77.772 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4170E-03  (   0.215 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8437E-09  (   0.175 %)
accumulated results Born          = 0.1872E-05  +/-  0.2682E-08  (   0.143 %)
accumulated results V  2          = 0.1366E-08  +/-  0.1062E-08  (  77.772 %)
accumulated results B  2          = 0.1872E-05  +/-  0.2682E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                           1                                2                 3                    4
channel    1 :     1 T   206914    23880  0.3286E-06  0.1849E-06  0.9568E+00
channel    2 :     1 T   206428    24697  0.3307E-06  0.1973E-06  0.8830E+00
channel    3 :     2 T    73363     8614  0.1169E-06  0.6112E-07  0.9327E+00
channel    4 :     2 T    73170     8343  0.1175E-06  0.6763E-07  0.1000E+01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9374060673726672E-007  +/-   1.8854486774836643E-009
 Final result:   5.1103502668646955E-007  +/-   2.1248914871031472E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398969
   Stability unknown:                                          0
   Stable PS point:                                       398969
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398969
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398969
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21920848    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.61187410    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.14060068    
 Time spent in Integrated_CT :    8.88714600    
 Time spent in Virtuals :    580.437561    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.11234045    
 Time spent in N1body_prefactor :   0.595305264    
 Time spent in Adding_alphas_pdf :    10.2124672    
 Time spent in Reweight_scale :    37.4479980    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2127466    
 Time spent in Applying_cuts :    4.93862152    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.5970688    
 Time spent in Other_tasks :    20.9791870    
 Time spent in Total :    734.392090    
Time in seconds: 745



LOG file for integration channel /P0_uxu_emep/all_G1_98, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35565
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          98
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 309386
  with seed                   48
 Ranmar initialization seeds       30233       18001
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440434D+04 0.440434D+04  1.00
 muF1, muF1_reference: 0.440434D+04 0.440434D+04  1.00
 muF2, muF2_reference: 0.440434D+04 0.440434D+04  1.00
 QES,  QES_reference:  0.440434D+04 0.440434D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4704591005350734E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4704591005350734E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1021345523849647E-006           OLP:   -4.1021345523849630E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2303519150367038E-006           OLP:   -8.2303519150366428E-006
  FINITE:
           OLP:   -1.0229938681615279E-004
           BORN:    1.1822183245803379E-003
  MOMENTA (Exyzm): 
           1   2202.1692803666765        0.0000000000000000        0.0000000000000000        2202.1692803666765        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2202.1692803666765       -0.0000000000000000       -0.0000000000000000       -2202.1692803666765        0.0000000000000000     
           3   2202.1692803666765       -1854.7088618988259       -1030.6930752151541        589.30158805842041        0.0000000000000000     
           4   2202.1692803666765        1854.7088618988259        1030.6930752151541       -589.30158805842041        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1021345523849647E-006           OLP:   -4.1021345523849630E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2303519150367038E-006           OLP:   -8.2303519150366428E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8968E-06  +/-  0.2392E-08  (   0.267 %)
Integral      = 0.5100E-06  +/-  0.2587E-08  (   0.507 %)
Virtual       = 0.3515E-09  +/-  0.1062E-08  ( 302.252 %)
Virtual ratio = -.1946E+00  +/-  0.4170E-03  (   0.214 %)
ABS virtual   = 0.4821E-06  +/-  0.8447E-09  (   0.175 %)
Born          = 0.1871E-05  +/-  0.2686E-08  (   0.144 %)
V  2          = 0.3515E-09  +/-  0.1062E-08  ( 302.252 %)
B  2          = 0.1871E-05  +/-  0.2686E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8968E-06  +/-  0.2392E-08  (   0.267 %)
accumulated results Integral      = 0.5100E-06  +/-  0.2587E-08  (   0.507 %)
accumulated results Virtual       = 0.3515E-09  +/-  0.1062E-08  ( 302.252 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4170E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4821E-06  +/-  0.8447E-09  (   0.175 %)
accumulated results Born          = 0.1871E-05  +/-  0.2686E-08  (   0.144 %)
accumulated results V  2          = 0.3515E-09  +/-  0.1062E-08  ( 302.252 %)
accumulated results B  2          = 0.1871E-05  +/-  0.2686E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206598    23880  0.3280E-06  0.1856E-06  0.8173E+00
channel    2 :     1 T   206410    24697  0.3318E-06  0.1971E-06  0.9204E+00
channel    3 :     2 T    73831     8614  0.1186E-06  0.6110E-07  0.4795E+00
channel    4 :     2 T    73036     8343  0.1184E-06  0.6630E-07  0.9619E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9682841943648487E-007  +/-   2.3919792888483348E-009
 Final result:   5.1001014086292257E-007  +/-   2.5871908508501339E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398911
   Stability unknown:                                          0
   Stable PS point:                                       398911
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398911
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398911
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21704447    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65391827    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.10028601    
 Time spent in Integrated_CT :    8.94213867    
 Time spent in Virtuals :    581.280457    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.14202929    
 Time spent in N1body_prefactor :   0.585071445    
 Time spent in Adding_alphas_pdf :    10.1530313    
 Time spent in Reweight_scale :    37.5718193    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1595058    
 Time spent in Applying_cuts :    4.89601707    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.7289658    
 Time spent in Other_tasks :    20.5529175    
 Time spent in Total :    734.983154    
Time in seconds: 746



LOG file for integration channel /P0_uxu_emep/all_G1_99, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35564
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          99
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 312543
  with seed                   48
 Ranmar initialization seeds       30233       21158
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425600D+04 0.425600D+04  1.00
 muF1, muF1_reference: 0.425600D+04 0.425600D+04  1.00
 muF2, muF2_reference: 0.425600D+04 0.425600D+04  1.00
 QES,  QES_reference:  0.425600D+04 0.425600D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4946036768869295E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4946036768869295E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9949115001204577E-006           OLP:   -3.9949115001204543E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1379760974534835E-006           OLP:   -8.1379760974534174E-006
  FINITE:
           OLP:   -9.1631479080786141E-005
           BORN:    1.1513170814383164E-003
  MOMENTA (Exyzm): 
           1   2127.9996281466542        0.0000000000000000        0.0000000000000000        2127.9996281466542        0.0000000000000000     
           2   2127.9996281466542       -0.0000000000000000       -0.0000000000000000       -2127.9996281466542        0.0000000000000000     
           3   2127.9996281466542       -1382.8682749751997       -1501.1425220972342        602.18674828575354        0.0000000000000000     
           4   2127.9996281466542        1382.8682749751997        1501.1425220972342       -602.18674828575354        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9949115001204577E-006           OLP:   -3.9949115001204543E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.1379760974534835E-006           OLP:   -8.1379760974534174E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.8945E-06  +/-  0.1844E-08  (   0.206 %)
Integral      = 0.5141E-06  +/-  0.2087E-08  (   0.406 %)
Virtual       = 0.1312E-08  +/-  0.1059E-08  (  80.726 %)
Virtual ratio = -.1948E+00  +/-  0.4169E-03  (   0.214 %)
ABS virtual   = 0.4826E-06  +/-  0.8399E-09  (   0.174 %)
Born          = 0.1871E-05  +/-  0.2672E-08  (   0.143 %)
V  2          = 0.1312E-08  +/-  0.1059E-08  (  80.726 %)
B  2          = 0.1871E-05  +/-  0.2672E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8945E-06  +/-  0.1844E-08  (   0.206 %)
accumulated results Integral      = 0.5141E-06  +/-  0.2087E-08  (   0.406 %)
accumulated results Virtual       = 0.1312E-08  +/-  0.1059E-08  (  80.726 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4169E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4826E-06  +/-  0.8399E-09  (   0.174 %)
accumulated results Born          = 0.1871E-05  +/-  0.2672E-08  (   0.143 %)
accumulated results V  2          = 0.1312E-08  +/-  0.1059E-08  (  80.726 %)
accumulated results B  2          = 0.1871E-05  +/-  0.2672E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                  1                                                                2
  2:  0                            1                               2                 3                    4
channel    1 :     1 T   206081    23880  0.3270E-06  0.1838E-06  0.9953E+00
channel    2 :     1 T   206660    24697  0.3316E-06  0.2007E-06  0.9262E+00
channel    3 :     2 T    73886     8614  0.1176E-06  0.6253E-07  0.9363E+00
channel    4 :     2 T    73244     8343  0.1184E-06  0.6705E-07  0.9003E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9454227531702644E-007  +/-   1.8435519005725375E-009
 Final result:   5.1412421619559584E-007  +/-   2.0870636882208761E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398966
   Stability unknown:                                          0
   Stable PS point:                                       398966
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398966
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398966
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21633756    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.61010551    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.11303329    
 Time spent in Integrated_CT :    8.82775879    
 Time spent in Virtuals :    581.544800    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.16485119    
 Time spent in N1body_prefactor :   0.588408470    
 Time spent in Adding_alphas_pdf :    10.2273273    
 Time spent in Reweight_scale :    37.6356010    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9311905    
 Time spent in Applying_cuts :    4.84918833    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.5411758    
 Time spent in Other_tasks :    20.4578857    
 Time spent in Total :    734.707703    
Time in seconds: 745



LOG file for integration channel /P0_uxu_emep/all_G1_100, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35551
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      711095
 Maximum number of iterations is:           1
 Desired accuracy is:   2.8964790014014237E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:         100
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      711095           1
 imode is           -1
channel    1 :     1 F        0    23880  0.3311E-04  0.0000E+00  0.9397E+00
channel    2 :     1 F        0    24697  0.3325E-04  0.0000E+00  0.9270E+00
channel    3 :     2 F        0     8614  0.1184E-04  0.0000E+00  0.9112E+00
channel    4 :     2 F        0     8343  0.1178E-04  0.0000E+00  0.9743E+00
 ------- iteration           1
 Update # PS points (even_rn):       711095  -->       559872
Using random seed offsets:     0 ,      3 , 315700
  with seed                   48
 Ranmar initialization seeds       30233       24315
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437638D+04 0.437638D+04  1.00
 muF1, muF1_reference: 0.437638D+04 0.437638D+04  1.00
 muF2, muF2_reference: 0.437638D+04 0.437638D+04  1.00
 QES,  QES_reference:  0.437638D+04 0.437638D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4749360048902647E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4749360048902647E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3951483592359331E-006           OLP:   -3.3951483592359454E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5921657400027899E-006           OLP:   -7.5921657400027661E-006
  FINITE:
           OLP:   -5.7660405751117560E-005
           BORN:    9.7846780833260984E-004
  MOMENTA (Exyzm): 
           1   2188.1889450253798        0.0000000000000000        0.0000000000000000        2188.1889450253798        0.0000000000000000     
           2   2188.1889450253798       -0.0000000000000000       -0.0000000000000000       -2188.1889450253798        0.0000000000000000     
           3   2188.1889450253798       -1966.1934908493588       -484.63423930771012        829.08604484910620        0.0000000000000000     
           4   2188.1889450253798        1966.1934908493588        484.63423930771012       -829.08604484910620        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3951483592359331E-006           OLP:   -3.3951483592359454E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5921657400027907E-006           OLP:   -7.5921657400027661E-006
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.8940E-06  +/-  0.1836E-08  (   0.205 %)
Integral      = 0.5132E-06  +/-  0.2081E-08  (   0.405 %)
Virtual       = 0.6844E-09  +/-  0.1067E-08  ( 155.849 %)
Virtual ratio = -.1952E+00  +/-  0.4175E-03  (   0.214 %)
ABS virtual   = 0.4835E-06  +/-  0.8487E-09  (   0.176 %)
Born          = 0.1874E-05  +/-  0.2690E-08  (   0.144 %)
V  2          = 0.6844E-09  +/-  0.1067E-08  ( 155.849 %)
B  2          = 0.1874E-05  +/-  0.2690E-08  (   0.144 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8940E-06  +/-  0.1836E-08  (   0.205 %)
accumulated results Integral      = 0.5132E-06  +/-  0.2081E-08  (   0.405 %)
accumulated results Virtual       = 0.6844E-09  +/-  0.1067E-08  ( 155.849 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4175E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8487E-09  (   0.176 %)
accumulated results Born          = 0.1874E-05  +/-  0.2690E-08  (   0.144 %)
accumulated results V  2          = 0.6844E-09  +/-  0.1067E-08  ( 155.849 %)
accumulated results B  2          = 0.1874E-05  +/-  0.2690E-08  (   0.144 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                   1                                                               2
  2:  0                            1                                2                3                    4
channel    1 :     1 T   206122    23880  0.3270E-06  0.1854E-06  0.9750E+00
channel    2 :     1 T   206263    24697  0.3290E-06  0.1974E-06  0.9494E+00
channel    3 :     2 T    74045     8614  0.1193E-06  0.6210E-07  0.8868E+00
channel    4 :     2 T    73450     8343  0.1186E-06  0.6826E-07  0.9997E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9396071320451477E-007  +/-   1.8362710358279903E-009
 Final result:   5.1315517552435886E-007  +/-   2.0806159653138326E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    398786
   Stability unknown:                                          0
   Stable PS point:                                       398786
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 398786
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       398786
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19982219    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.68400288    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.97950363    
 Time spent in Integrated_CT :    8.79321289    
 Time spent in Virtuals :    564.658813    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.16398811    
 Time spent in N1body_prefactor :   0.591670036    
 Time spent in Adding_alphas_pdf :    10.1296873    
 Time spent in Reweight_scale :    36.8577576    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8674393    
 Time spent in Applying_cuts :    4.86192226    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.8025818    
 Time spent in Other_tasks :    20.6862793    
 Time spent in Total :    716.276733    
Time in seconds: 726



LOG file for integration channel /P0_dxd_emep/all_G1_1, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35626
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           1
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,   3157
  with seed                   48
 Ranmar initialization seeds       30233       12583
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.418361D+04 0.418361D+04  1.00
 muF1, muF1_reference: 0.418361D+04 0.418361D+04  1.00
 muF2, muF2_reference: 0.418361D+04 0.418361D+04  1.00
 QES,  QES_reference:  0.418361D+04 0.418361D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5067498491306200E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5067498491306200E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7248473180868282E-006           OLP:   -1.7248473180868286E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1021592243004590E-006           OLP:   -2.1021592243004263E-006
  FINITE:
           OLP:   -1.8319323976979850E-004
           BORN:    6.4622208380949700E-004
  MOMENTA (Exyzm): 
           1   2091.8060230960791        0.0000000000000000        0.0000000000000000        2091.8060230960791        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2091.8060230960791       -0.0000000000000000       -0.0000000000000000       -2091.8060230960791        0.0000000000000000     
           3   2091.8060230960791       -1604.1956917898435       -1253.1497252646643        481.48145008197002        0.0000000000000000     
           4   2091.8060230960791        1604.1956917898435        1253.1497252646643       -481.48145008197002        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7248473180868282E-006           OLP:   -1.7248473180868286E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1021592243004594E-006           OLP:   -2.1021592243004263E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7281E-06  +/-  0.1701E-08  (   0.234 %)
Integral      = 0.4812E-06  +/-  0.1851E-08  (   0.385 %)
Virtual       = -.9562E-09  +/-  0.8853E-09  (  92.582 %)
Virtual ratio = -.2877E+00  +/-  0.3796E-03  (   0.132 %)
ABS virtual   = 0.3420E-06  +/-  0.7582E-09  (   0.222 %)
Born          = 0.1820E-05  +/-  0.2991E-08  (   0.164 %)
V  2          = -.9562E-09  +/-  0.8853E-09  (  92.582 %)
B  2          = 0.1820E-05  +/-  0.2991E-08  (   0.164 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7281E-06  +/-  0.1701E-08  (   0.234 %)
accumulated results Integral      = 0.4812E-06  +/-  0.1851E-08  (   0.385 %)
accumulated results Virtual       = -.9562E-09  +/-  0.8853E-09  (  92.582 %)
accumulated results Virtual ratio = -.2877E+00  +/-  0.3796E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3420E-06  +/-  0.7582E-09  (   0.222 %)
accumulated results Born          = 0.1820E-05  +/-  0.2991E-08  (   0.164 %)
accumulated results V  2          = -.9562E-09  +/-  0.8853E-09  (  92.582 %)
accumulated results B  2          = 0.1820E-05  +/-  0.2991E-08  (   0.164 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95505    10477  0.1243E-06  0.7901E-07  0.8760E+00
channel    2 :     1 T    96587    11478  0.1260E-06  0.8097E-07  0.7678E+00
channel    3 :     2 T   183893    22019  0.2383E-06  0.1581E-06  0.8046E+00
channel    4 :     2 T   183890    21560  0.2395E-06  0.1631E-06  0.8193E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2808828575443089E-007  +/-   1.7012592738988755E-009
 Final result:   4.8118844973639061E-007  +/-   1.8513687183183868E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360591
   Stability unknown:                                          0
   Stable PS point:                                       360591
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360591
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360591
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19682276    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64896011    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.89774609    
 Time spent in Integrated_CT :    8.90692139    
 Time spent in Virtuals :    531.178284    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.25453663    
 Time spent in N1body_prefactor :   0.612707973    
 Time spent in Adding_alphas_pdf :    9.81077576    
 Time spent in Reweight_scale :    36.5139503    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1209135    
 Time spent in Applying_cuts :    4.88286209    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.2575150    
 Time spent in Other_tasks :    21.3872070    
 Time spent in Total :    683.669250    
Time in seconds: 704



LOG file for integration channel /P0_dxd_emep/all_G1_2, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35627
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           2
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,   6314
  with seed                   48
 Ranmar initialization seeds       30233       15740
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440969D+04 0.440969D+04  1.00
 muF1, muF1_reference: 0.440969D+04 0.440969D+04  1.00
 muF2, muF2_reference: 0.440969D+04 0.440969D+04  1.00
 QES,  QES_reference:  0.440969D+04 0.440969D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4696063896214568E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4696063896214568E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9093897448739211E-006           OLP:   -1.9093897448739211E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.4551780561213436E-006           OLP:   -2.4551780561214169E-006
  FINITE:
           OLP:   -2.1070650825514339E-004
           BORN:    7.1536176379108092E-004
  MOMENTA (Exyzm): 
           1   2204.8440978508042        0.0000000000000000        0.0000000000000000        2204.8440978508042        0.0000000000000000     
           2   2204.8440978508042       -0.0000000000000000       -0.0000000000000000       -2204.8440978508042        0.0000000000000000     
           3   2204.8440978508042       -1219.6355140035366       -1795.0562105924566        389.35833061886075        0.0000000000000000     
           4   2204.8440978508042        1219.6355140035366        1795.0562105924566       -389.35833061886075        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9093897448739211E-006           OLP:   -1.9093897448739211E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.4551780561213436E-006           OLP:   -2.4551780561214169E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.7273E-06  +/-  0.1559E-08  (   0.214 %)
Integral      = 0.4843E-06  +/-  0.1719E-08  (   0.355 %)
Virtual       = -.1169E-09  +/-  0.8815E-09  ( 754.302 %)
Virtual ratio = -.2876E+00  +/-  0.3798E-03  (   0.132 %)
ABS virtual   = 0.3421E-06  +/-  0.7537E-09  (   0.220 %)
Born          = 0.1818E-05  +/-  0.2975E-08  (   0.164 %)
V  2          = -.1169E-09  +/-  0.8815E-09  ( 754.302 %)
B  2          = 0.1818E-05  +/-  0.2975E-08  (   0.164 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7273E-06  +/-  0.1559E-08  (   0.214 %)
accumulated results Integral      = 0.4843E-06  +/-  0.1719E-08  (   0.355 %)
accumulated results Virtual       = -.1169E-09  +/-  0.8815E-09  ( 754.302 %)
accumulated results Virtual ratio = -.2876E+00  +/-  0.3798E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3421E-06  +/-  0.7537E-09  (   0.220 %)
accumulated results Born          = 0.1818E-05  +/-  0.2975E-08  (   0.164 %)
accumulated results V  2          = -.1169E-09  +/-  0.8815E-09  ( 754.302 %)
accumulated results B  2          = 0.1818E-05  +/-  0.2975E-08  (   0.164 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95551    10477  0.1249E-06  0.8001E-07  0.8608E+00
channel    2 :     1 T    96809    11478  0.1249E-06  0.8092E-07  0.9020E+00
channel    3 :     2 T   183620    22019  0.2387E-06  0.1601E-06  0.8437E+00
channel    4 :     2 T   183894    21560  0.2388E-06  0.1633E-06  0.8684E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2725764465371980E-007  +/-   1.5589927868287674E-009
 Final result:   4.8425734727575881E-007  +/-   1.7193866093977075E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360326
   Stability unknown:                                          0
   Stable PS point:                                       360326
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360326
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360326
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17859674    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.44995975    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.78992081    
 Time spent in Integrated_CT :    8.67059326    
 Time spent in Virtuals :    528.719299    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.10951805    
 Time spent in N1body_prefactor :   0.595381677    
 Time spent in Adding_alphas_pdf :    9.73124695    
 Time spent in Reweight_scale :    36.4678802    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7305717    
 Time spent in Applying_cuts :    4.83029699    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.7959213    
 Time spent in Other_tasks :    20.4324341    
 Time spent in Total :    678.501648    
Time in seconds: 698



LOG file for integration channel /P0_dxd_emep/all_G1_3, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35631
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           3
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,   9471
  with seed                   48
 Ranmar initialization seeds       30233       18897
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.449299D+04 0.449299D+04  1.00
 muF1, muF1_reference: 0.449299D+04 0.449299D+04  1.00
 muF2, muF2_reference: 0.449299D+04 0.449299D+04  1.00
 QES,  QES_reference:  0.449299D+04 0.449299D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4564859677727011E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4564859677727011E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6824902767296527E-006           OLP:   -1.6824902767296510E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0229409018978691E-006           OLP:   -2.0229409018979207E-006
  FINITE:
           OLP:   -1.8503390759350122E-004
           BORN:    6.3035282092297113E-004
  MOMENTA (Exyzm): 
           1   2246.4961874422274        0.0000000000000000        0.0000000000000000        2246.4961874422274        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2246.4961874422274       -0.0000000000000000       -0.0000000000000000       -2246.4961874422274        0.0000000000000000     
           3   2246.4961874422274       -2069.7480081999347       -681.68386622154594        546.07271427723845        0.0000000000000000     
           4   2246.4961874422274        2069.7480081999347        681.68386622154594       -546.07271427723845        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6824902767296527E-006           OLP:   -1.6824902767296510E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0229409018978695E-006           OLP:   -2.0229409018979207E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7245E-06  +/-  0.1555E-08  (   0.215 %)
Integral      = 0.4802E-06  +/-  0.1716E-08  (   0.357 %)
Virtual       = -.1643E-08  +/-  0.8657E-09  (  52.694 %)
Virtual ratio = -.2879E+00  +/-  0.3806E-03  (   0.132 %)
ABS virtual   = 0.3406E-06  +/-  0.7364E-09  (   0.216 %)
Born          = 0.1812E-05  +/-  0.2927E-08  (   0.162 %)
V  2          = -.1643E-08  +/-  0.8657E-09  (  52.694 %)
B  2          = 0.1812E-05  +/-  0.2927E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7245E-06  +/-  0.1555E-08  (   0.215 %)
accumulated results Integral      = 0.4802E-06  +/-  0.1716E-08  (   0.357 %)
accumulated results Virtual       = -.1643E-08  +/-  0.8657E-09  (  52.694 %)
accumulated results Virtual ratio = -.2879E+00  +/-  0.3806E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3406E-06  +/-  0.7364E-09  (   0.216 %)
accumulated results Born          = 0.1812E-05  +/-  0.2927E-08  (   0.162 %)
accumulated results V  2          = -.1643E-08  +/-  0.8657E-09  (  52.694 %)
accumulated results B  2          = 0.1812E-05  +/-  0.2927E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    94880    10477  0.1234E-06  0.7775E-07  0.8453E+00
channel    2 :     1 T    96886    11478  0.1247E-06  0.8072E-07  0.8883E+00
channel    3 :     2 T   184147    22019  0.2385E-06  0.1597E-06  0.8363E+00
channel    4 :     2 T   183960    21560  0.2380E-06  0.1621E-06  0.8536E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2452980159336141E-007  +/-   1.5550434179689103E-009
 Final result:   4.8022147583608976E-007  +/-   1.7157712116035725E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360045
   Stability unknown:                                          0
   Stable PS point:                                       360045
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360045
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360045
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17406082    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.54508877    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.78282833    
 Time spent in Integrated_CT :    8.66064453    
 Time spent in Virtuals :    528.783142    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.07582998    
 Time spent in N1body_prefactor :   0.593693316    
 Time spent in Adding_alphas_pdf :    9.79122734    
 Time spent in Reweight_scale :    36.2019348    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7759886    
 Time spent in Applying_cuts :    4.87410307    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0744705    
 Time spent in Other_tasks :    20.7074585    
 Time spent in Total :    679.040405    
Time in seconds: 698



LOG file for integration channel /P0_dxd_emep/all_G1_4, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35629
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           4
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  12628
  with seed                   48
 Ranmar initialization seeds       30233       22054
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436191D+04 0.436191D+04  1.00
 muF1, muF1_reference: 0.436191D+04 0.436191D+04  1.00
 muF2, muF2_reference: 0.436191D+04 0.436191D+04  1.00
 QES,  QES_reference:  0.436191D+04 0.436191D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4772656548871552E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4617581460067292E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
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 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4814801446756078E-006           OLP:   -1.4814801446756071E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6550129657791392E-006           OLP:   -1.6550129657791667E-006
  FINITE:
           OLP:   -1.5762266853219995E-004
           BORN:    5.5504343843984971E-004
  MOMENTA (Exyzm): 
           1   2229.6466904810354        0.0000000000000000        0.0000000000000000        2229.6466904810354        0.0000000000000000     
           2   2229.6466904810354       -0.0000000000000000       -0.0000000000000000       -2229.6466904810354        0.0000000000000000     
           3   2229.6466904810354       -1753.2908162567014       -1193.1883170768119        688.18407275550214        0.0000000000000000     
           4   2229.6466904810354        1753.2908162567014        1193.1883170768119       -688.18407275550214        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4814801446756078E-006           OLP:   -1.4814801446756071E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6550129657791390E-006           OLP:   -1.6550129657791667E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.7280E-06  +/-  0.1679E-08  (   0.231 %)
Integral      = 0.4825E-06  +/-  0.1830E-08  (   0.379 %)
Virtual       = -.3062E-09  +/-  0.8799E-09  ( 287.356 %)
Virtual ratio = -.2878E+00  +/-  0.3806E-03  (   0.132 %)
ABS virtual   = 0.3420E-06  +/-  0.7519E-09  (   0.220 %)
Born          = 0.1815E-05  +/-  0.2967E-08  (   0.163 %)
V  2          = -.3062E-09  +/-  0.8799E-09  ( 287.356 %)
B  2          = 0.1815E-05  +/-  0.2967E-08  (   0.163 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7280E-06  +/-  0.1679E-08  (   0.231 %)
accumulated results Integral      = 0.4825E-06  +/-  0.1830E-08  (   0.379 %)
accumulated results Virtual       = -.3062E-09  +/-  0.8799E-09  ( 287.356 %)
accumulated results Virtual ratio = -.2878E+00  +/-  0.3806E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3420E-06  +/-  0.7519E-09  (   0.220 %)
accumulated results Born          = 0.1815E-05  +/-  0.2967E-08  (   0.163 %)
accumulated results V  2          = -.3062E-09  +/-  0.8799E-09  ( 287.356 %)
accumulated results B  2          = 0.1815E-05  +/-  0.2967E-08  (   0.163 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95307    10477  0.1249E-06  0.7967E-07  0.7981E+00
channel    2 :     1 T    96419    11478  0.1242E-06  0.8055E-07  0.8796E+00
channel    3 :     2 T   183578    22019  0.2390E-06  0.1598E-06  0.8126E+00
channel    4 :     2 T   184569    21560  0.2399E-06  0.1626E-06  0.7923E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2796044328018985E-007  +/-   1.6790158449015029E-009
 Final result:   4.8254983434757518E-007  +/-   1.8302189263187383E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360061
   Stability unknown:                                          0
   Stable PS point:                                       360061
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360061
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360061
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17640424    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.47816086    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.79845476    
 Time spent in Integrated_CT :    8.73480225    
 Time spent in Virtuals :    526.589844    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.10015821    
 Time spent in N1body_prefactor :   0.599237621    
 Time spent in Adding_alphas_pdf :    9.78388500    
 Time spent in Reweight_scale :    36.0592270    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8619680    
 Time spent in Applying_cuts :    4.82421827    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0327644    
 Time spent in Other_tasks :    20.6384888    
 Time spent in Total :    676.677551    
Time in seconds: 678



LOG file for integration channel /P0_dxd_emep/all_G1_5, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35642
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           5
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  15785
  with seed                   48
 Ranmar initialization seeds       30233       25211
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.447085D+04 0.447085D+04  1.00
 muF1, muF1_reference: 0.447085D+04 0.447085D+04  1.00
 muF2, muF2_reference: 0.447085D+04 0.447085D+04  1.00
 QES,  QES_reference:  0.447085D+04 0.447085D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4599445410724233E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4599445410724233E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7247941400909333E-006           OLP:   -1.7247941400909331E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1021494096023719E-006           OLP:   -2.1021494096024312E-006
  FINITE:
           OLP:   -1.8989413552875989E-004
           BORN:    6.4620216042557800E-004
  MOMENTA (Exyzm): 
           1   2235.4256886222174        0.0000000000000000        0.0000000000000000        2235.4256886222174        0.0000000000000000     
           2   2235.4256886222174       -0.0000000000000000       -0.0000000000000000       -2235.4256886222174        0.0000000000000000     
           3   2235.4256886222174       -2161.6730991064255       -244.14097142438669        514.48285493658125        0.0000000000000000     
           4   2235.4256886222174        2161.6730991064255        244.14097142438669       -514.48285493658125        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7247941400909333E-006           OLP:   -1.7247941400909331E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.1021494096023719E-006           OLP:   -2.1021494096024312E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.7283E-06  +/-  0.1854E-08  (   0.255 %)
Integral      = 0.4813E-06  +/-  0.1993E-08  (   0.414 %)
Virtual       = -.4342E-09  +/-  0.8852E-09  ( 203.855 %)
Virtual ratio = -.2877E+00  +/-  0.3800E-03  (   0.132 %)
ABS virtual   = 0.3417E-06  +/-  0.7583E-09  (   0.222 %)
Born          = 0.1816E-05  +/-  0.2970E-08  (   0.164 %)
V  2          = -.4342E-09  +/-  0.8852E-09  ( 203.855 %)
B  2          = 0.1816E-05  +/-  0.2970E-08  (   0.164 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7283E-06  +/-  0.1854E-08  (   0.255 %)
accumulated results Integral      = 0.4813E-06  +/-  0.1993E-08  (   0.414 %)
accumulated results Virtual       = -.4342E-09  +/-  0.8852E-09  ( 203.855 %)
accumulated results Virtual ratio = -.2877E+00  +/-  0.3800E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3417E-06  +/-  0.7583E-09  (   0.222 %)
accumulated results Born          = 0.1816E-05  +/-  0.2970E-08  (   0.164 %)
accumulated results V  2          = -.4342E-09  +/-  0.8852E-09  ( 203.855 %)
accumulated results B  2          = 0.1816E-05  +/-  0.2970E-08  (   0.164 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95637    10477  0.1253E-06  0.8027E-07  0.8278E+00
channel    2 :     1 T    96902    11478  0.1259E-06  0.8153E-07  0.9260E+00
channel    3 :     2 T   183971    22019  0.2387E-06  0.1577E-06  0.7490E+00
channel    4 :     2 T   183360    21560  0.2384E-06  0.1618E-06  0.6689E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2827023660647380E-007  +/-   1.8538484880726260E-009
 Final result:   4.8128000934925314E-007  +/-   1.9925744976916860E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360081
   Stability unknown:                                          0
   Stable PS point:                                       360081
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360081
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360081
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.18122017    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.49459934    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.76793623    
 Time spent in Integrated_CT :    8.71942139    
 Time spent in Virtuals :    531.298279    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.05901957    
 Time spent in N1body_prefactor :   0.597212911    
 Time spent in Adding_alphas_pdf :    9.79309273    
 Time spent in Reweight_scale :    36.0009842    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9268665    
 Time spent in Applying_cuts :    4.75262594    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0727806    
 Time spent in Other_tasks :    20.4127197    
 Time spent in Total :    681.076721    
Time in seconds: 700



LOG file for integration channel /P0_dxd_emep/all_G1_6, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35632
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           6
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  18942
  with seed                   48
 Ranmar initialization seeds       30233       28368
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441947D+04 0.441947D+04  1.00
 muF1, muF1_reference: 0.441947D+04 0.441947D+04  1.00
 muF2, muF2_reference: 0.441947D+04 0.441947D+04  1.00
 QES,  QES_reference:  0.441947D+04 0.441947D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4680504196699138E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4680504196699138E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8098258318905971E-006           OLP:   -1.8098258318905982E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2632637570766393E-006           OLP:   -2.2632637570765969E-006
  FINITE:
           OLP:   -1.9915371074286081E-004
           BORN:    6.7805967992218741E-004
  MOMENTA (Exyzm): 
           1   2209.7349791525035        0.0000000000000000        0.0000000000000000        2209.7349791525035        0.0000000000000000     
           2   2209.7349791525035       -0.0000000000000000       -0.0000000000000000       -2209.7349791525035        0.0000000000000000     
           3   2209.7349791525035       -1425.8840842760774       -1626.2542001913212        452.85818161801330        0.0000000000000000     
           4   2209.7349791525035        1425.8840842760774        1626.2542001913212       -452.85818161801330        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8098258318905971E-006           OLP:   -1.8098258318905982E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2632637570766393E-006           OLP:   -2.2632637570765969E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7274E-06  +/-  0.1579E-08  (   0.217 %)
Integral      = 0.4848E-06  +/-  0.1737E-08  (   0.358 %)
Virtual       = 0.4691E-09  +/-  0.8795E-09  ( 187.491 %)
Virtual ratio = -.2874E+00  +/-  0.3810E-03  (   0.133 %)
ABS virtual   = 0.3420E-06  +/-  0.7514E-09  (   0.220 %)
Born          = 0.1816E-05  +/-  0.2943E-08  (   0.162 %)
V  2          = 0.4691E-09  +/-  0.8795E-09  ( 187.491 %)
B  2          = 0.1816E-05  +/-  0.2943E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7274E-06  +/-  0.1579E-08  (   0.217 %)
accumulated results Integral      = 0.4848E-06  +/-  0.1737E-08  (   0.358 %)
accumulated results Virtual       = 0.4691E-09  +/-  0.8795E-09  ( 187.491 %)
accumulated results Virtual ratio = -.2874E+00  +/-  0.3810E-03  (   0.133 %)
accumulated results ABS virtual   = 0.3420E-06  +/-  0.7514E-09  (   0.220 %)
accumulated results Born          = 0.1816E-05  +/-  0.2943E-08  (   0.162 %)
accumulated results V  2          = 0.4691E-09  +/-  0.8795E-09  ( 187.491 %)
accumulated results B  2          = 0.1816E-05  +/-  0.2943E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95011    10477  0.1248E-06  0.8056E-07  0.8657E+00
channel    2 :     1 T    96596    11478  0.1252E-06  0.8150E-07  0.8401E+00
channel    3 :     2 T   184452    22019  0.2399E-06  0.1604E-06  0.8309E+00
channel    4 :     2 T   183817    21560  0.2374E-06  0.1623E-06  0.8836E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2736640343823241E-007  +/-   1.5788004338510517E-009
 Final result:   4.8475283354036922E-007  +/-   1.7372010851076267E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360218
   Stability unknown:                                          0
   Stable PS point:                                       360218
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360218
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360218
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.18716288    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.44888973    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.79745579    
 Time spent in Integrated_CT :    8.68206787    
 Time spent in Virtuals :    528.649048    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.09383869    
 Time spent in N1body_prefactor :   0.599835634    
 Time spent in Adding_alphas_pdf :    9.67923832    
 Time spent in Reweight_scale :    36.1492386    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5338745    
 Time spent in Applying_cuts :    4.82327366    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.7109985    
 Time spent in Other_tasks :    20.5959473    
 Time spent in Total :    677.950928    
Time in seconds: 687



LOG file for integration channel /P0_dxd_emep/all_G1_7, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35633
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           7
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  22099
  with seed                   48
 Ranmar initialization seeds       30233        1444
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.446642D+04 0.446642D+04  1.00
 muF1, muF1_reference: 0.446642D+04 0.446642D+04  1.00
 muF2, muF2_reference: 0.446642D+04 0.446642D+04  1.00
 QES,  QES_reference:  0.446642D+04 0.446642D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4606394782700508E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4606394782700508E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7777739544843958E-006           OLP:   -1.7777739544843981E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2022418188383065E-006           OLP:   -2.2022418188383421E-006
  FINITE:
           OLP:   -1.9637006282022490E-004
           BORN:    6.6605129472179989E-004
  MOMENTA (Exyzm): 
           1   2233.2091719274863        0.0000000000000000        0.0000000000000000        2233.2091719274863        0.0000000000000000     
           2   2233.2091719274863       -0.0000000000000000       -0.0000000000000000       -2233.2091719274863        0.0000000000000000     
           3   2233.2091719274863       -2169.5248948149347       -226.50058081272442        478.62555641210372        0.0000000000000000     
           4   2233.2091719274863        2169.5248948149347        226.50058081272442       -478.62555641210372        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7777739544843958E-006           OLP:   -1.7777739544843981E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2022418188383061E-006           OLP:   -2.2022418188383421E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.7296E-06  +/-  0.1611E-08  (   0.221 %)
Integral      = 0.4849E-06  +/-  0.1768E-08  (   0.365 %)
Virtual       = 0.1148E-09  +/-  0.8813E-09  ( 767.664 %)
Virtual ratio = -.2872E+00  +/-  0.3802E-03  (   0.132 %)
ABS virtual   = 0.3432E-06  +/-  0.7525E-09  (   0.219 %)
Born          = 0.1822E-05  +/-  0.2974E-08  (   0.163 %)
V  2          = 0.1148E-09  +/-  0.8813E-09  ( 767.664 %)
B  2          = 0.1822E-05  +/-  0.2974E-08  (   0.163 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7296E-06  +/-  0.1611E-08  (   0.221 %)
accumulated results Integral      = 0.4849E-06  +/-  0.1768E-08  (   0.365 %)
accumulated results Virtual       = 0.1148E-09  +/-  0.8813E-09  ( 767.664 %)
accumulated results Virtual ratio = -.2872E+00  +/-  0.3802E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3432E-06  +/-  0.7525E-09  (   0.219 %)
accumulated results Born          = 0.1822E-05  +/-  0.2974E-08  (   0.163 %)
accumulated results V  2          = 0.1148E-09  +/-  0.8813E-09  ( 767.664 %)
accumulated results B  2          = 0.1822E-05  +/-  0.2974E-08  (   0.163 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95359    10477  0.1248E-06  0.7926E-07  0.8476E+00
channel    2 :     1 T    96709    11478  0.1256E-06  0.8131E-07  0.8633E+00
channel    3 :     2 T   184048    22019  0.2387E-06  0.1594E-06  0.8384E+00
channel    4 :     2 T   183760    21560  0.2405E-06  0.1649E-06  0.8352E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2957342964893813E-007  +/-   1.6108991831646027E-009
 Final result:   4.8490848772787212E-007  +/-   1.7679724773345045E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360546
   Stability unknown:                                          0
   Stable PS point:                                       360546
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360546
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360546
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21125937    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.58950615    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.79865265    
 Time spent in Integrated_CT :    8.71472168    
 Time spent in Virtuals :    529.584412    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.06604862    
 Time spent in N1body_prefactor :   0.584939599    
 Time spent in Adding_alphas_pdf :    9.68271637    
 Time spent in Reweight_scale :    36.2424698    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8642588    
 Time spent in Applying_cuts :    4.76289845    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.8899612    
 Time spent in Other_tasks :    20.7077637    
 Time spent in Total :    679.699646    
Time in seconds: 698



LOG file for integration channel /P0_dxd_emep/all_G1_8, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35650
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           8
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  25256
  with seed                   48
 Ranmar initialization seeds       30233        4601
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.449438D+04 0.449438D+04  1.00
 muF1, muF1_reference: 0.449438D+04 0.449438D+04  1.00
 muF2, muF2_reference: 0.449438D+04 0.449438D+04  1.00
 QES,  QES_reference:  0.449438D+04 0.449438D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4562696246204360E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4562696246204360E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9467584386811445E-006           OLP:   -1.9467584386811449E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.5281429998945619E-006           OLP:   -2.5281429998945585E-006
  FINITE:
           OLP:   -2.1721720036317025E-004
           BORN:    7.2936211902723490E-004
  MOMENTA (Exyzm): 
           1   2247.1908587672638        0.0000000000000000        0.0000000000000000        2247.1908587672638        0.0000000000000000     
           2   2247.1908587672638       -0.0000000000000000       -0.0000000000000000       -2247.1908587672638        0.0000000000000000     
           3   2247.1908587672638       -1843.4398745592216       -1229.6496258896627        373.57460053066552        0.0000000000000000     
           4   2247.1908587672638        1843.4398745592216        1229.6496258896627       -373.57460053066552        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9467584386811445E-006           OLP:   -1.9467584386811449E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.5281429998945619E-006           OLP:   -2.5281429998945585E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7297E-06  +/-  0.1596E-08  (   0.219 %)
Integral      = 0.4846E-06  +/-  0.1754E-08  (   0.362 %)
Virtual       = 0.1346E-08  +/-  0.8891E-09  (  66.066 %)
Virtual ratio = -.2875E+00  +/-  0.3808E-03  (   0.132 %)
ABS virtual   = 0.3432E-06  +/-  0.7617E-09  (   0.222 %)
Born          = 0.1816E-05  +/-  0.2944E-08  (   0.162 %)
V  2          = 0.1346E-08  +/-  0.8891E-09  (  66.066 %)
B  2          = 0.1816E-05  +/-  0.2944E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7297E-06  +/-  0.1596E-08  (   0.219 %)
accumulated results Integral      = 0.4846E-06  +/-  0.1754E-08  (   0.362 %)
accumulated results Virtual       = 0.1346E-08  +/-  0.8891E-09  (  66.066 %)
accumulated results Virtual ratio = -.2875E+00  +/-  0.3808E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3432E-06  +/-  0.7617E-09  (   0.222 %)
accumulated results Born          = 0.1816E-05  +/-  0.2944E-08  (   0.162 %)
accumulated results V  2          = 0.1346E-08  +/-  0.8891E-09  (  66.066 %)
accumulated results B  2          = 0.1816E-05  +/-  0.2944E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95704    10477  0.1253E-06  0.8045E-07  0.8711E+00
channel    2 :     1 T    96962    11478  0.1264E-06  0.8195E-07  0.9029E+00
channel    3 :     2 T   183590    22019  0.2387E-06  0.1591E-06  0.8075E+00
channel    4 :     2 T   183616    21560  0.2393E-06  0.1632E-06  0.8699E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2973719856763195E-007  +/-   1.5955898990871674E-009
 Final result:   4.8463047679251971E-007  +/-   1.7542935698200054E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360011
   Stability unknown:                                          0
   Stable PS point:                                       360011
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360011
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360011
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19680011    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64503765    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.86404753    
 Time spent in Integrated_CT :    8.75091553    
 Time spent in Virtuals :    528.815308    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.14766121    
 Time spent in N1body_prefactor :   0.588720679    
 Time spent in Adding_alphas_pdf :    9.87736607    
 Time spent in Reweight_scale :    36.8076057    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6753864    
 Time spent in Applying_cuts :    4.79359770    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6855850    
 Time spent in Other_tasks :    20.6607666    
 Time spent in Total :    680.508850    
Time in seconds: 700



LOG file for integration channel /P0_dxd_emep/all_G1_9, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35651
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           9
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  28413
  with seed                   48
 Ranmar initialization seeds       30233        7758
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431596D+04 0.431596D+04  1.00
 muF1, muF1_reference: 0.431596D+04 0.431596D+04  1.00
 muF2, muF2_reference: 0.431596D+04 0.431596D+04  1.00
 QES,  QES_reference:  0.431596D+04 0.431596D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4847261549830027E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4919244976554916E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5415243805418507E-006           OLP:   -1.5415243805418524E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7634154459790821E-006           OLP:   -1.7634154459791167E-006
  FINITE:
           OLP:   -1.6197644325811271E-004
           BORN:    5.7753929115408930E-004
  MOMENTA (Exyzm): 
           1   2136.0825805250211        0.0000000000000000        0.0000000000000000        2136.0825805250211        0.0000000000000000     
           2   2136.0825805250211       -0.0000000000000000       -0.0000000000000000       -2136.0825805250211        0.0000000000000000     
           3   2136.0825805250211       -1940.8363300557876       -645.55815220926661        615.83910469713840        0.0000000000000000     
           4   2136.0825805250211        1940.8363300557876        645.55815220926661       -615.83910469713840        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5415243805418507E-006           OLP:   -1.5415243805418524E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7634154459790821E-006           OLP:   -1.7634154459791167E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7310E-06  +/-  0.1633E-08  (   0.223 %)
Integral      = 0.4856E-06  +/-  0.1788E-08  (   0.368 %)
Virtual       = 0.8942E-09  +/-  0.8836E-09  (  98.824 %)
Virtual ratio = -.2874E+00  +/-  0.3803E-03  (   0.132 %)
ABS virtual   = 0.3431E-06  +/-  0.7553E-09  (   0.220 %)
Born          = 0.1820E-05  +/-  0.2946E-08  (   0.162 %)
V  2          = 0.8942E-09  +/-  0.8836E-09  (  98.824 %)
B  2          = 0.1820E-05  +/-  0.2946E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7310E-06  +/-  0.1633E-08  (   0.223 %)
accumulated results Integral      = 0.4856E-06  +/-  0.1788E-08  (   0.368 %)
accumulated results Virtual       = 0.8942E-09  +/-  0.8836E-09  (  98.824 %)
accumulated results Virtual ratio = -.2874E+00  +/-  0.3803E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3431E-06  +/-  0.7553E-09  (   0.220 %)
accumulated results Born          = 0.1820E-05  +/-  0.2946E-08  (   0.162 %)
accumulated results V  2          = 0.8942E-09  +/-  0.8836E-09  (  98.824 %)
accumulated results B  2          = 0.1820E-05  +/-  0.2946E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95047    10477  0.1250E-06  0.7989E-07  0.7577E+00
channel    2 :     1 T    96869    11478  0.1278E-06  0.8348E-07  0.8655E+00
channel    3 :     2 T   184372    22019  0.2392E-06  0.1591E-06  0.8385E+00
channel    4 :     2 T   183586    21560  0.2389E-06  0.1632E-06  0.8643E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.3100979479648904E-007  +/-   1.6325680144817097E-009
 Final result:   4.8562720861771548E-007  +/-   1.7884378899481873E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360582
   Stability unknown:                                          0
   Stable PS point:                                       360582
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360582
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360582
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21530080    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.53576612    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.83777475    
 Time spent in Integrated_CT :    8.76513672    
 Time spent in Virtuals :    530.434265    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.17342663    
 Time spent in N1body_prefactor :   0.599491894    
 Time spent in Adding_alphas_pdf :    9.89538574    
 Time spent in Reweight_scale :    36.8772888    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8092289    
 Time spent in Applying_cuts :    4.88857555    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.1028290    
 Time spent in Other_tasks :    20.8027954    
 Time spent in Total :    681.937256    
Time in seconds: 703



LOG file for integration channel /P0_dxd_emep/all_G1_10, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35648
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          10
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  31570
  with seed                   48
 Ranmar initialization seeds       30233       10915
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.444586D+04 0.444586D+04  1.00
 muF1, muF1_reference: 0.444586D+04 0.444586D+04  1.00
 muF2, muF2_reference: 0.444586D+04 0.444586D+04  1.00
 QES,  QES_reference:  0.444586D+04 0.444586D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4638734838120585E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4638734838120585E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4297548246348168E-006           OLP:   -1.4297548246348155E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5625371326412085E-006           OLP:   -1.5625371326411547E-006
  FINITE:
           OLP:   -1.5014089712276585E-004
           BORN:    5.3566430629756320E-004
  MOMENTA (Exyzm): 
           1   2222.9288469909548        0.0000000000000000        0.0000000000000000        2222.9288469909548        0.0000000000000000     
           2   2222.9288469909548       -0.0000000000000000       -0.0000000000000000       -2222.9288469909548        0.0000000000000000     
           3   2222.9288469909548       -1118.0019441627182       -1778.6666108914385        726.51868450362701        0.0000000000000000     
           4   2222.9288469909548        1118.0019441627182        1778.6666108914385       -726.51868450362701        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4297548246348168E-006           OLP:   -1.4297548246348155E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5625371326412087E-006           OLP:   -1.5625371326411547E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7226E-06  +/-  0.1811E-08  (   0.251 %)
Integral      = 0.4770E-06  +/-  0.1951E-08  (   0.409 %)
Virtual       = -.1738E-08  +/-  0.8792E-09  (  50.583 %)
Virtual ratio = -.2882E+00  +/-  0.3808E-03  (   0.132 %)
ABS virtual   = 0.3403E-06  +/-  0.7524E-09  (   0.221 %)
Born          = 0.1809E-05  +/-  0.2945E-08  (   0.163 %)
V  2          = -.1738E-08  +/-  0.8792E-09  (  50.583 %)
B  2          = 0.1809E-05  +/-  0.2945E-08  (   0.163 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7226E-06  +/-  0.1811E-08  (   0.251 %)
accumulated results Integral      = 0.4770E-06  +/-  0.1951E-08  (   0.409 %)
accumulated results Virtual       = -.1738E-08  +/-  0.8792E-09  (  50.583 %)
accumulated results Virtual ratio = -.2882E+00  +/-  0.3808E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3403E-06  +/-  0.7524E-09  (   0.221 %)
accumulated results Born          = 0.1809E-05  +/-  0.2945E-08  (   0.163 %)
accumulated results V  2          = -.1738E-08  +/-  0.8792E-09  (  50.583 %)
accumulated results B  2          = 0.1809E-05  +/-  0.2945E-08  (   0.163 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                             1                                                     2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    94860    10477  0.1228E-06  0.7860E-07  0.8856E+00
channel    2 :     1 T    97375    11478  0.1249E-06  0.8019E-07  0.9081E+00
channel    3 :     2 T   183887    22019  0.2366E-06  0.1568E-06  0.8252E+00
channel    4 :     2 T   183751    21560  0.2384E-06  0.1614E-06  0.6458E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2264800621853571E-007  +/-   1.8112011714808551E-009
 Final result:   4.7701650024832251E-007  +/-   1.9510961168201172E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    359538
   Stability unknown:                                          0
   Stable PS point:                                       359538
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 359538
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       359538
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19657278    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.44553089    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.77921104    
 Time spent in Integrated_CT :    8.63958740    
 Time spent in Virtuals :    528.643494    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.08077908    
 Time spent in N1body_prefactor :   0.585242927    
 Time spent in Adding_alphas_pdf :    9.73652172    
 Time spent in Reweight_scale :    36.3181953    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5069256    
 Time spent in Applying_cuts :    4.80150795    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0668526    
 Time spent in Other_tasks :    20.3314819    
 Time spent in Total :    678.131836    
Time in seconds: 688



LOG file for integration channel /P0_dxd_emep/all_G1_11, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35649
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          11
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  34727
  with seed                   48
 Ranmar initialization seeds       30233       14072
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433729D+04 0.433729D+04  1.00
 muF1, muF1_reference: 0.433729D+04 0.433729D+04  1.00
 muF2, muF2_reference: 0.433729D+04 0.433729D+04  1.00
 QES,  QES_reference:  0.433729D+04 0.433729D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4812521041621671E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4835701146662062E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8323151888802970E-006           OLP:   -1.8323151888802966E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3062760683834669E-006           OLP:   -2.3062760683835249E-006
  FINITE:
           OLP:   -1.9947669282889796E-004
           BORN:    6.8648542229661361E-004
  MOMENTA (Exyzm): 
           1   2161.5214027412530        0.0000000000000000        0.0000000000000000        2161.5214027412530        0.0000000000000000     
           2   2161.5214027412530       -0.0000000000000000       -0.0000000000000000       -2161.5214027412530        0.0000000000000000     
           3   2161.5214027412530       -2097.8130297815537       -295.58176280223438        428.93669473009282        0.0000000000000000     
           4   2161.5214027412530        2097.8130297815537        295.58176280223438       -428.93669473009282        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8323151888802970E-006           OLP:   -1.8323151888802966E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3062760683834669E-006           OLP:   -2.3062760683835249E-006
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7230E-06  +/-  0.1604E-08  (   0.222 %)
Integral      = 0.4777E-06  +/-  0.1761E-08  (   0.369 %)
Virtual       = -.2278E-08  +/-  0.8785E-09  (  38.572 %)
Virtual ratio = -.2882E+00  +/-  0.3793E-03  (   0.132 %)
ABS virtual   = 0.3401E-06  +/-  0.7518E-09  (   0.221 %)
Born          = 0.1814E-05  +/-  0.2980E-08  (   0.164 %)
V  2          = -.2278E-08  +/-  0.8785E-09  (  38.572 %)
B  2          = 0.1814E-05  +/-  0.2980E-08  (   0.164 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7230E-06  +/-  0.1604E-08  (   0.222 %)
accumulated results Integral      = 0.4777E-06  +/-  0.1761E-08  (   0.369 %)
accumulated results Virtual       = -.2278E-08  +/-  0.8785E-09  (  38.572 %)
accumulated results Virtual ratio = -.2882E+00  +/-  0.3793E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3401E-06  +/-  0.7518E-09  (   0.221 %)
accumulated results Born          = 0.1814E-05  +/-  0.2980E-08  (   0.164 %)
accumulated results V  2          = -.2278E-08  +/-  0.8785E-09  (  38.572 %)
accumulated results B  2          = 0.1814E-05  +/-  0.2980E-08  (   0.164 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                3                          4
channel    1 :     1 T    95108    10477  0.1239E-06  0.7819E-07  0.8412E+00
channel    2 :     1 T    96781    11478  0.1240E-06  0.7951E-07  0.8786E+00
channel    3 :     2 T   184046    22019  0.2373E-06  0.1575E-06  0.7860E+00
channel    4 :     2 T   183940    21560  0.2377E-06  0.1625E-06  0.8830E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2295647776917028E-007  +/-   1.6044104022099335E-009
 Final result:   4.7765710491010189E-007  +/-   1.7607280477053156E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    359964
   Stability unknown:                                          0
   Stable PS point:                                       359964
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 359964
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       359964
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23185658    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.42352772    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.75755739    
 Time spent in Integrated_CT :    8.67877197    
 Time spent in Virtuals :    528.334106    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.08777237    
 Time spent in N1body_prefactor :   0.592210174    
 Time spent in Adding_alphas_pdf :    9.72692680    
 Time spent in Reweight_scale :    36.5734329    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8991814    
 Time spent in Applying_cuts :    4.83166790    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.3203278    
 Time spent in Other_tasks :    20.8007202    
 Time spent in Total :    679.258057    
Time in seconds: 698



LOG file for integration channel /P0_dxd_emep/all_G1_12, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35643
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          12
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  37884
  with seed                   48
 Ranmar initialization seeds       30233       17229
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435145D+04 0.435145D+04  1.00
 muF1, muF1_reference: 0.435145D+04 0.435145D+04  1.00
 muF2, muF2_reference: 0.435145D+04 0.435145D+04  1.00
 QES,  QES_reference:  0.435145D+04 0.435145D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4789553417341628E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4789553417341614E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6844146167705567E-006           OLP:   -1.6844146167705573E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0264897905522134E-006           OLP:   -2.0264897905522659E-006
  FINITE:
           OLP:   -1.8210679099161874E-004
           BORN:    6.3107378388482349E-004
  MOMENTA (Exyzm): 
           1   2175.7266665460861        0.0000000000000000        0.0000000000000000        2175.7266665460861        0.0000000000000000     
           2   2175.7266665460861       -0.0000000000000000       -0.0000000000000000       -2175.7266665460861        0.0000000000000000     
           3   2175.7266665460861       -2110.7130020688510       -17.183062372348839        527.61907924633556        0.0000000000000000     
           4   2175.7266665460861        2110.7130020688510        17.183062372348839       -527.61907924633556        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6844146167705567E-006           OLP:   -1.6844146167705573E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0264897905522130E-006           OLP:   -2.0264897905522659E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.3522803783416748E-006           3
ABS integral  = 0.7252E-06  +/-  0.1596E-08  (   0.220 %)
Integral      = 0.4822E-06  +/-  0.1752E-08  (   0.363 %)
Virtual       = -.8549E-09  +/-  0.8987E-09  ( 105.129 %)
Virtual ratio = -.2878E+00  +/-  0.3797E-03  (   0.132 %)
ABS virtual   = 0.3414E-06  +/-  0.7743E-09  (   0.227 %)
Born          = 0.1816E-05  +/-  0.2973E-08  (   0.164 %)
V  2          = -.8549E-09  +/-  0.8987E-09  ( 105.129 %)
B  2          = 0.1816E-05  +/-  0.2973E-08  (   0.164 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7252E-06  +/-  0.1596E-08  (   0.220 %)
accumulated results Integral      = 0.4822E-06  +/-  0.1752E-08  (   0.363 %)
accumulated results Virtual       = -.8549E-09  +/-  0.8987E-09  ( 105.129 %)
accumulated results Virtual ratio = -.2878E+00  +/-  0.3797E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3414E-06  +/-  0.7743E-09  (   0.227 %)
accumulated results Born          = 0.1816E-05  +/-  0.2973E-08  (   0.164 %)
accumulated results V  2          = -.8549E-09  +/-  0.8987E-09  ( 105.129 %)
accumulated results B  2          = 0.1816E-05  +/-  0.2973E-08  (   0.164 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95003    10477  0.1238E-06  0.7887E-07  0.8663E+00
channel    2 :     1 T    96865    11478  0.1246E-06  0.8123E-07  0.9044E+00
channel    3 :     2 T   183809    22019  0.2394E-06  0.1594E-06  0.8195E+00
channel    4 :     2 T   184193    21560  0.2374E-06  0.1627E-06  0.8873E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2518577014508934E-007  +/-   1.5956047276775760E-009
 Final result:   4.8221473998294956E-007  +/-   1.7521236634266115E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    359869
   Stability unknown:                                          0
   Stable PS point:                                       359869
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 359869
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       359869
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19282675    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.48957539    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.77604103    
 Time spent in Integrated_CT :    8.55920410    
 Time spent in Virtuals :    528.955750    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.06605577    
 Time spent in N1body_prefactor :   0.585469365    
 Time spent in Adding_alphas_pdf :    9.75664902    
 Time spent in Reweight_scale :    36.2869873    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9124622    
 Time spent in Applying_cuts :    4.80425072    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0499229    
 Time spent in Other_tasks :    20.2631836    
 Time spent in Total :    678.698364    
Time in seconds: 698



LOG file for integration channel /P0_dxd_emep/all_G1_13, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35628
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          13
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  41041
  with seed                   48
 Ranmar initialization seeds       30233       20386
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439037D+04 0.439037D+04  1.00
 muF1, muF1_reference: 0.439037D+04 0.439037D+04  1.00
 muF2, muF2_reference: 0.439037D+04 0.439037D+04  1.00
 QES,  QES_reference:  0.439037D+04 0.439037D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4726918471222467E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4726918471222467E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4958093082745151E-006           OLP:   -1.4958093082745149E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6807670929950466E-006           OLP:   -1.6807670929951247E-006
  FINITE:
           OLP:   -1.5824253631289915E-004
           BORN:    5.6041192634195803E-004
  MOMENTA (Exyzm): 
           1   2195.1837916141394        0.0000000000000000        0.0000000000000000        2195.1837916141394        0.0000000000000000     
           2   2195.1837916141394       -0.0000000000000000       -0.0000000000000000       -2195.1837916141394        0.0000000000000000     
           3   2195.1837916141394       -1660.7763835092730       -1271.2611312929564        666.74494299322657        0.0000000000000000     
           4   2195.1837916141394        1660.7763835092730        1271.2611312929564       -666.74494299322657        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4958093082745151E-006           OLP:   -1.4958093082745149E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.6807670929950468E-006           OLP:   -1.6807670929951247E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.7274E-06  +/-  0.1625E-08  (   0.223 %)
Integral      = 0.4829E-06  +/-  0.1780E-08  (   0.369 %)
Virtual       = -.3660E-09  +/-  0.8800E-09  ( 240.443 %)
Virtual ratio = -.2876E+00  +/-  0.3806E-03  (   0.132 %)
ABS virtual   = 0.3422E-06  +/-  0.7519E-09  (   0.220 %)
Born          = 0.1819E-05  +/-  0.2975E-08  (   0.164 %)
V  2          = -.3660E-09  +/-  0.8800E-09  ( 240.443 %)
B  2          = 0.1819E-05  +/-  0.2975E-08  (   0.164 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7274E-06  +/-  0.1625E-08  (   0.223 %)
accumulated results Integral      = 0.4829E-06  +/-  0.1780E-08  (   0.369 %)
accumulated results Virtual       = -.3660E-09  +/-  0.8800E-09  ( 240.443 %)
accumulated results Virtual ratio = -.2876E+00  +/-  0.3806E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3422E-06  +/-  0.7519E-09  (   0.220 %)
accumulated results Born          = 0.1819E-05  +/-  0.2975E-08  (   0.164 %)
accumulated results V  2          = -.3660E-09  +/-  0.8800E-09  ( 240.443 %)
accumulated results B  2          = 0.1819E-05  +/-  0.2975E-08  (   0.164 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                              1                        2                 3                         4
channel    1 :     1 T    95010    10477  0.1241E-06  0.7951E-07  0.8722E+00
channel    2 :     1 T    96904    11478  0.1255E-06  0.8064E-07  0.7476E+00
channel    3 :     2 T   184313    22019  0.2392E-06  0.1602E-06  0.8335E+00
channel    4 :     2 T   183641    21560  0.2385E-06  0.1625E-06  0.8894E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2736804743839179E-007  +/-   1.6246800439310710E-009
 Final result:   4.8288382838786481E-007  +/-   1.7799091413838711E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360435
   Stability unknown:                                          0
   Stable PS point:                                       360435
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360435
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360435
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17354536    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.50657177    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.78211594    
 Time spent in Integrated_CT :    8.70989990    
 Time spent in Virtuals :    528.760132    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.14266300    
 Time spent in N1body_prefactor :   0.595155001    
 Time spent in Adding_alphas_pdf :    9.97079563    
 Time spent in Reweight_scale :    36.9677086    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7293291    
 Time spent in Applying_cuts :    4.80925894    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0374222    
 Time spent in Other_tasks :    20.1549683    
 Time spent in Total :    679.339539    
Time in seconds: 698



LOG file for integration channel /P0_dxd_emep/all_G1_14, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35654
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          14
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  44198
  with seed                   48
 Ranmar initialization seeds       30233       23543
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433132D+04 0.433132D+04  1.00
 muF1, muF1_reference: 0.433132D+04 0.433132D+04  1.00
 muF2, muF2_reference: 0.433132D+04 0.433132D+04  1.00
 QES,  QES_reference:  0.433132D+04 0.433132D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4822215706150663E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4822215706150663E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5858694215483355E-006           OLP:   -1.5858694215483343E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8443147856841672E-006           OLP:   -1.8443147856841932E-006
  FINITE:
           OLP:   -1.6904297599958660E-004
           BORN:    5.9415336737134769E-004
  MOMENTA (Exyzm): 
           1   2165.6611524831578        0.0000000000000000        0.0000000000000000        2165.6611524831578        0.0000000000000000     
           2   2165.6611524831578       -0.0000000000000000       -0.0000000000000000       -2165.6611524831578        0.0000000000000000     
           3   2165.6611524831578       -2057.1265044112433       -327.06791114619688        592.74391917751529        0.0000000000000000     
           4   2165.6611524831578        2057.1265044112433        327.06791114619688       -592.74391917751529        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5858694215483355E-006           OLP:   -1.5858694215483343E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8443147856841665E-006           OLP:   -1.8443147856841932E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.7284E-06  +/-  0.1641E-08  (   0.225 %)
Integral      = 0.4822E-06  +/-  0.1796E-08  (   0.373 %)
Virtual       = -.7816E-09  +/-  0.8902E-09  ( 113.897 %)
Virtual ratio = -.2879E+00  +/-  0.3803E-03  (   0.132 %)
ABS virtual   = 0.3421E-06  +/-  0.7638E-09  (   0.223 %)
Born          = 0.1815E-05  +/-  0.2982E-08  (   0.164 %)
V  2          = -.7816E-09  +/-  0.8902E-09  ( 113.897 %)
B  2          = 0.1815E-05  +/-  0.2982E-08  (   0.164 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7284E-06  +/-  0.1641E-08  (   0.225 %)
accumulated results Integral      = 0.4822E-06  +/-  0.1796E-08  (   0.373 %)
accumulated results Virtual       = -.7816E-09  +/-  0.8902E-09  ( 113.897 %)
accumulated results Virtual ratio = -.2879E+00  +/-  0.3803E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3421E-06  +/-  0.7638E-09  (   0.223 %)
accumulated results Born          = 0.1815E-05  +/-  0.2982E-08  (   0.164 %)
accumulated results V  2          = -.7816E-09  +/-  0.8902E-09  ( 113.897 %)
accumulated results B  2          = 0.1815E-05  +/-  0.2982E-08  (   0.164 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95599    10477  0.1249E-06  0.7881E-07  0.8448E+00
channel    2 :     1 T    96625    11478  0.1254E-06  0.8163E-07  0.8981E+00
channel    3 :     2 T   183943    22019  0.2384E-06  0.1581E-06  0.7770E+00
channel    4 :     2 T   183711    21560  0.2397E-06  0.1636E-06  0.8614E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2841491619389631E-007  +/-   1.6413579388535574E-009
 Final result:   4.8216655946643070E-007  +/-   1.7962476500419250E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360084
   Stability unknown:                                          0
   Stable PS point:                                       360084
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360084
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360084
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19865561    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.51351070    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.81084538    
 Time spent in Integrated_CT :    8.67742920    
 Time spent in Virtuals :    529.669861    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.10513783    
 Time spent in N1body_prefactor :   0.591105461    
 Time spent in Adding_alphas_pdf :    9.92040062    
 Time spent in Reweight_scale :    36.5103760    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6768007    
 Time spent in Applying_cuts :    4.74917412    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.9284515    
 Time spent in Other_tasks :    20.6318970    
 Time spent in Total :    679.983704    
Time in seconds: 698



LOG file for integration channel /P0_dxd_emep/all_G1_15, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35630
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          15
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  47355
  with seed                   48
 Ranmar initialization seeds       30233       26700
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.417089D+04 0.417089D+04  1.00
 muF1, muF1_reference: 0.417089D+04 0.417089D+04  1.00
 muF2, muF2_reference: 0.417089D+04 0.417089D+04  1.00
 QES,  QES_reference:  0.417089D+04 0.417089D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5089104020199027E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5089104020199027E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
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 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7768523327482185E-006           OLP:   -1.7768523327482185E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2003966930338376E-006           OLP:   -2.2003966930338905E-006
  FINITE:
           OLP:   -1.8912585878407191E-004
           BORN:    6.6570600484449228E-004
  MOMENTA (Exyzm): 
           1   2085.4445125002962        0.0000000000000000        0.0000000000000000        2085.4445125002962        0.0000000000000000     
           2   2085.4445125002962       -0.0000000000000000       -0.0000000000000000       -2085.4445125002962        0.0000000000000000     
           3   2085.4445125002962       -1976.7140251506078       -491.24670086785403        447.61273035619729        0.0000000000000000     
           4   2085.4445125002962        1976.7140251506078        491.24670086785403       -447.61273035619729        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7768523327482185E-006           OLP:   -1.7768523327482185E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2003966930338380E-006           OLP:   -2.2003966930338905E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7300E-06  +/-  0.1570E-08  (   0.215 %)
Integral      = 0.4844E-06  +/-  0.1731E-08  (   0.357 %)
Virtual       = -.5149E-09  +/-  0.8779E-09  ( 170.505 %)
Virtual ratio = -.2877E+00  +/-  0.3793E-03  (   0.132 %)
ABS virtual   = 0.3421E-06  +/-  0.7495E-09  (   0.219 %)
Born          = 0.1819E-05  +/-  0.2955E-08  (   0.162 %)
V  2          = -.5149E-09  +/-  0.8779E-09  ( 170.505 %)
B  2          = 0.1819E-05  +/-  0.2955E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7300E-06  +/-  0.1570E-08  (   0.215 %)
accumulated results Integral      = 0.4844E-06  +/-  0.1731E-08  (   0.357 %)
accumulated results Virtual       = -.5149E-09  +/-  0.8779E-09  ( 170.505 %)
accumulated results Virtual ratio = -.2877E+00  +/-  0.3793E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3421E-06  +/-  0.7495E-09  (   0.219 %)
accumulated results Born          = 0.1819E-05  +/-  0.2955E-08  (   0.162 %)
accumulated results V  2          = -.5149E-09  +/-  0.8779E-09  ( 170.505 %)
accumulated results B  2          = 0.1819E-05  +/-  0.2955E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95230    10477  0.1250E-06  0.7987E-07  0.8549E+00
channel    2 :     1 T    96383    11478  0.1246E-06  0.8090E-07  0.8822E+00
channel    3 :     2 T   184281    22019  0.2408E-06  0.1596E-06  0.8205E+00
channel    4 :     2 T   183982    21560  0.2395E-06  0.1640E-06  0.8785E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2995402746689292E-007  +/-   1.5701675571058489E-009
 Final result:   4.8442810623275816E-007  +/-   1.7314677440201738E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360142
   Stability unknown:                                          0
   Stable PS point:                                       360142
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360142
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360142
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19223404    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.46044779    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.77781153    
 Time spent in Integrated_CT :    8.68994141    
 Time spent in Virtuals :    529.228394    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.04599571    
 Time spent in N1body_prefactor :   0.575687528    
 Time spent in Adding_alphas_pdf :    9.70461273    
 Time spent in Reweight_scale :    36.1498184    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5239315    
 Time spent in Applying_cuts :    4.77996826    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.7629356    
 Time spent in Other_tasks :    20.3438721    
 Time spent in Total :    678.235657    
Time in seconds: 698



LOG file for integration channel /P0_dxd_emep/all_G1_16, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       35625
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          16
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  50512
  with seed                   48
 Ranmar initialization seeds       30233       29857
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442297D+04 0.442297D+04  1.00
 muF1, muF1_reference: 0.442297D+04 0.442297D+04  1.00
 muF2, muF2_reference: 0.442297D+04 0.442297D+04  1.00
 QES,  QES_reference:  0.442297D+04 0.442297D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4674953236941469E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4674953236941469E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2228306389913311E-006           OLP:   -1.2228306389913302E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.2007022006682486E-006           OLP:   -1.2007022006682456E-006
  FINITE:
           OLP:   -1.1908045074126300E-004
           BORN:    4.5813919608349779E-004
  MOMENTA (Exyzm): 
           1   2211.4829619180855        0.0000000000000000        0.0000000000000000        2211.4829619180855        0.0000000000000000     
           2   2211.4829619180855       -0.0000000000000000       -0.0000000000000000       -2211.4829619180855        0.0000000000000000     
           3   2211.4829619180855       -2017.5770619940126       -103.83966269970034        899.58713542380565        0.0000000000000000     
           4   2211.4829619180855        2017.5770619940126        103.83966269970034       -899.58713542380565        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2228306389913311E-006           OLP:   -1.2228306389913302E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.2007022006682486E-006           OLP:   -1.2007022006682456E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.7291E-06  +/-  0.3900E-08  (   0.535 %)
Integral      = 0.4833E-06  +/-  0.3968E-08  (   0.821 %)
Virtual       = -.2039E-08  +/-  0.8770E-09  (  43.021 %)
Virtual ratio = -.2881E+00  +/-  0.3793E-03  (   0.132 %)
ABS virtual   = 0.3416E-06  +/-  0.7489E-09  (   0.219 %)
Born          = 0.1820E-05  +/-  0.2992E-08  (   0.164 %)
V  2          = -.2039E-08  +/-  0.8770E-09  (  43.021 %)
B  2          = 0.1820E-05  +/-  0.2992E-08  (   0.164 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7291E-06  +/-  0.3900E-08  (   0.535 %)
accumulated results Integral      = 0.4833E-06  +/-  0.3968E-08  (   0.821 %)
accumulated results Virtual       = -.2039E-08  +/-  0.8770E-09  (  43.021 %)
accumulated results Virtual ratio = -.2881E+00  +/-  0.3793E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3416E-06  +/-  0.7489E-09  (   0.219 %)
accumulated results Born          = 0.1820E-05  +/-  0.2992E-08  (   0.164 %)
accumulated results V  2          = -.2039E-08  +/-  0.8770E-09  (  43.021 %)
accumulated results B  2          = 0.1820E-05  +/-  0.2992E-08  (   0.164 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    94829    10477  0.1265E-06  0.8115E-07  0.2274E+00
channel    2 :     1 T    97171    11478  0.1259E-06  0.8195E-07  0.8907E+00
channel    3 :     2 T   183678    22019  0.2382E-06  0.1567E-06  0.8106E+00
channel    4 :     2 T   184197    21560  0.2386E-06  0.1634E-06  0.8854E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2911427045921894E-007  +/-   3.9003490572286551E-009
 Final result:   4.8327748195391722E-007  +/-   3.9680067383726952E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360521
   Stability unknown:                                          0
   Stable PS point:                                       360521
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360521
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360521
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.11727691    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.40288591    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.73460245    
 Time spent in Integrated_CT :    8.05245972    
 Time spent in Virtuals :    483.421143    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.94488239    
 Time spent in N1body_prefactor :   0.567676365    
 Time spent in Adding_alphas_pdf :    9.53494740    
 Time spent in Reweight_scale :    36.1366730    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.5981655    
 Time spent in Applying_cuts :    4.57040453    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.1323051    
 Time spent in Other_tasks :    19.1576538    
 Time spent in Total :    626.371094    
Time in seconds: 629



LOG file for integration channel /P0_dxd_emep/all_G1_17, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39785
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          17
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  53669
  with seed                   48
 Ranmar initialization seeds       30233        2933
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.448280D+04 0.448280D+04  1.00
 muF1, muF1_reference: 0.448280D+04 0.448280D+04  1.00
 muF2, muF2_reference: 0.448280D+04 0.448280D+04  1.00
 QES,  QES_reference:  0.448280D+04 0.448280D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4580753693598900E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4759590465610384E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8292431279396967E-006           OLP:   -1.8292431279396965E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3004010459170939E-006           OLP:   -2.3004010459170058E-006
  FINITE:
           OLP:   -2.0027553804102311E-004
           BORN:    6.8533446035244194E-004
  MOMENTA (Exyzm): 
           1   2185.0089442848416        0.0000000000000000        0.0000000000000000        2185.0089442848416        0.0000000000000000     
           2   2185.0089442848416       -0.0000000000000000       -0.0000000000000000       -2185.0089442848416        0.0000000000000000     
           3   2185.0089442848416       -1268.4691375720652       -1724.9853698186255        435.51763172532821        0.0000000000000000     
           4   2185.0089442848416        1268.4691375720652        1724.9853698186255       -435.51763172532821        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8292431279396967E-006           OLP:   -1.8292431279396965E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3004010459170943E-006           OLP:   -2.3004010459170058E-006
 REAL 3: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.7271E-06  +/-  0.1604E-08  (   0.221 %)
Integral      = 0.4830E-06  +/-  0.1761E-08  (   0.365 %)
Virtual       = -.8225E-09  +/-  0.8781E-09  ( 106.769 %)
Virtual ratio = -.2882E+00  +/-  0.3803E-03  (   0.132 %)
ABS virtual   = 0.3416E-06  +/-  0.7501E-09  (   0.220 %)
Born          = 0.1816E-05  +/-  0.2947E-08  (   0.162 %)
V  2          = -.8225E-09  +/-  0.8781E-09  ( 106.769 %)
B  2          = 0.1816E-05  +/-  0.2947E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7271E-06  +/-  0.1604E-08  (   0.221 %)
accumulated results Integral      = 0.4830E-06  +/-  0.1761E-08  (   0.365 %)
accumulated results Virtual       = -.8225E-09  +/-  0.8781E-09  ( 106.769 %)
accumulated results Virtual ratio = -.2882E+00  +/-  0.3803E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3416E-06  +/-  0.7501E-09  (   0.220 %)
accumulated results Born          = 0.1816E-05  +/-  0.2947E-08  (   0.162 %)
accumulated results V  2          = -.8225E-09  +/-  0.8781E-09  ( 106.769 %)
accumulated results B  2          = 0.1816E-05  +/-  0.2947E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95280    10477  0.1243E-06  0.7853E-07  0.8437E+00
channel    2 :     1 T    96674    11478  0.1253E-06  0.8210E-07  0.8611E+00
channel    3 :     2 T   183966    22019  0.2387E-06  0.1601E-06  0.8428E+00
channel    4 :     2 T   183945    21560  0.2389E-06  0.1622E-06  0.8371E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2714383739575188E-007  +/-   1.6041285904087669E-009
 Final result:   4.8301624329997769E-007  +/-   1.7609397812657983E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360291
   Stability unknown:                                          0
   Stable PS point:                                       360291
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360291
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360291
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.16323447    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.51973438    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.75338745    
 Time spent in Integrated_CT :    8.63259888    
 Time spent in Virtuals :    511.282867    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.04052019    
 Time spent in N1body_prefactor :   0.583194733    
 Time spent in Adding_alphas_pdf :    9.76136398    
 Time spent in Reweight_scale :    35.8552094    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8898144    
 Time spent in Applying_cuts :    4.99642229    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2572327    
 Time spent in Other_tasks :    20.6638794    
 Time spent in Total :    660.399475    
Time in seconds: 667



LOG file for integration channel /P0_dxd_emep/all_G1_18, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39779
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          18
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  56826
  with seed                   48
 Ranmar initialization seeds       30233        6090
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431165D+04 0.431165D+04  1.00
 muF1, muF1_reference: 0.431165D+04 0.431165D+04  1.00
 muF2, muF2_reference: 0.431165D+04 0.431165D+04  1.00
 QES,  QES_reference:  0.431165D+04 0.431165D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4854311708004398E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4854311708004398E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8699152000270478E-006           OLP:   -1.8699152000270459E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3786355071482046E-006           OLP:   -2.3786355071481301E-006
  FINITE:
           OLP:   -2.0360756961884346E-004
           BORN:    7.0057244165173222E-004
  MOMENTA (Exyzm): 
           1   2155.8236906905713        0.0000000000000000        0.0000000000000000        2155.8236906905713        0.0000000000000000     
           2   2155.8236906905713       -0.0000000000000000       -0.0000000000000000       -2155.8236906905713        0.0000000000000000     
           3   2155.8236906905713       -2008.7920150115040       -669.76657359083140        404.65190308354289        0.0000000000000000     
           4   2155.8236906905713        2008.7920150115040        669.76657359083140       -404.65190308354289        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8699152000270478E-006           OLP:   -1.8699152000270459E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3786355071482046E-006           OLP:   -2.3786355071481301E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.7275E-06  +/-  0.1606E-08  (   0.221 %)
Integral      = 0.4817E-06  +/-  0.1764E-08  (   0.366 %)
Virtual       = -.9347E-09  +/-  0.8726E-09  (  93.353 %)
Virtual ratio = -.2878E+00  +/-  0.3798E-03  (   0.132 %)
ABS virtual   = 0.3418E-06  +/-  0.7435E-09  (   0.218 %)
Born          = 0.1817E-05  +/-  0.2951E-08  (   0.162 %)
V  2          = -.9347E-09  +/-  0.8726E-09  (  93.353 %)
B  2          = 0.1817E-05  +/-  0.2951E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7275E-06  +/-  0.1606E-08  (   0.221 %)
accumulated results Integral      = 0.4817E-06  +/-  0.1764E-08  (   0.366 %)
accumulated results Virtual       = -.9347E-09  +/-  0.8726E-09  (  93.353 %)
accumulated results Virtual ratio = -.2878E+00  +/-  0.3798E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3418E-06  +/-  0.7435E-09  (   0.218 %)
accumulated results Born          = 0.1817E-05  +/-  0.2951E-08  (   0.162 %)
accumulated results V  2          = -.9347E-09  +/-  0.8726E-09  (  93.353 %)
accumulated results B  2          = 0.1817E-05  +/-  0.2951E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95563    10477  0.1249E-06  0.7938E-07  0.8385E+00
channel    2 :     1 T    96937    11478  0.1253E-06  0.8067E-07  0.8242E+00
channel    3 :     2 T   183610    22019  0.2392E-06  0.1593E-06  0.8006E+00
channel    4 :     2 T   183757    21560  0.2381E-06  0.1624E-06  0.8805E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2751232328799527E-007  +/-   1.6063171463024090E-009
 Final result:   4.8172447045992038E-007  +/-   1.7638362914858432E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360230
   Stability unknown:                                          0
   Stable PS point:                                       360230
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360230
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360230
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17227554    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.56374359    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.77551460    
 Time spent in Integrated_CT :    8.55001831    
 Time spent in Virtuals :    511.891449    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.01712227    
 Time spent in N1body_prefactor :   0.576972723    
 Time spent in Adding_alphas_pdf :    10.0016441    
 Time spent in Reweight_scale :    35.9537697    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4766788    
 Time spent in Applying_cuts :    4.69909620    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2530746    
 Time spent in Other_tasks :    20.4486694    
 Time spent in Total :    660.380066    
Time in seconds: 667



LOG file for integration channel /P0_dxd_emep/all_G1_19, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39780
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          19
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  59983
  with seed                   48
 Ranmar initialization seeds       30233        9247
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443629D+04 0.443629D+04  1.00
 muF1, muF1_reference: 0.443629D+04 0.443629D+04  1.00
 muF2, muF2_reference: 0.443629D+04 0.443629D+04  1.00
 QES,  QES_reference:  0.443629D+04 0.443629D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4653850825861928E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4653850825861928E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5156670452455853E-006           OLP:   -1.5156670452455857E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7166089431250874E-006           OLP:   -1.7166089431251603E-006
  FINITE:
           OLP:   -1.6185718811490999E-004
           BORN:    5.6785172001564939E-004
  MOMENTA (Exyzm): 
           1   2218.1432125895158        0.0000000000000000        0.0000000000000000        2218.1432125895158        0.0000000000000000     
           2   2218.1432125895158       -0.0000000000000000       -0.0000000000000000       -2218.1432125895158        0.0000000000000000     
           3   2218.1432125895158       -1674.7447117257370       -1296.7241554175607        658.70777045684702        0.0000000000000000     
           4   2218.1432125895158        1674.7447117257370        1296.7241554175607       -658.70777045684702        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5156670452455853E-006           OLP:   -1.5156670452455857E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7166089431250879E-006           OLP:   -1.7166089431251603E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7264E-06  +/-  0.1593E-08  (   0.219 %)
Integral      = 0.4802E-06  +/-  0.1752E-08  (   0.365 %)
Virtual       = -.1687E-08  +/-  0.8773E-09  (  51.992 %)
Virtual ratio = -.2881E+00  +/-  0.3798E-03  (   0.132 %)
ABS virtual   = 0.3409E-06  +/-  0.7498E-09  (   0.220 %)
Born          = 0.1817E-05  +/-  0.2974E-08  (   0.164 %)
V  2          = -.1687E-08  +/-  0.8773E-09  (  51.992 %)
B  2          = 0.1817E-05  +/-  0.2974E-08  (   0.164 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7264E-06  +/-  0.1593E-08  (   0.219 %)
accumulated results Integral      = 0.4802E-06  +/-  0.1752E-08  (   0.365 %)
accumulated results Virtual       = -.1687E-08  +/-  0.8773E-09  (  51.992 %)
accumulated results Virtual ratio = -.2881E+00  +/-  0.3798E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3409E-06  +/-  0.7498E-09  (   0.220 %)
accumulated results Born          = 0.1817E-05  +/-  0.2974E-08  (   0.164 %)
accumulated results V  2          = -.1687E-08  +/-  0.8773E-09  (  51.992 %)
accumulated results B  2          = 0.1817E-05  +/-  0.2974E-08  (   0.164 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95495    10477  0.1242E-06  0.7872E-07  0.8611E+00
channel    2 :     1 T    96760    11478  0.1254E-06  0.8036E-07  0.8363E+00
channel    3 :     2 T   183766    22019  0.2388E-06  0.1599E-06  0.8259E+00
channel    4 :     2 T   183852    21560  0.2380E-06  0.1613E-06  0.8684E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2641767600249229E-007  +/-   1.5933153237309755E-009
 Final result:   4.8023259977411374E-007  +/-   1.7519240894864711E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360314
   Stability unknown:                                          0
   Stable PS point:                                       360314
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360314
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360314
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.18019581    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.50024128    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.79483414    
 Time spent in Integrated_CT :    8.59457397    
 Time spent in Virtuals :    511.290741    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.19547749    
 Time spent in N1body_prefactor :   0.616545677    
 Time spent in Adding_alphas_pdf :    9.68891716    
 Time spent in Reweight_scale :    35.9487801    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.3844986    
 Time spent in Applying_cuts :    4.79123878    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.8990211    
 Time spent in Other_tasks :    20.7332153    
 Time spent in Total :    660.618347    
Time in seconds: 667



LOG file for integration channel /P0_dxd_emep/all_G1_20, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39791
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          20
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  63140
  with seed                   48
 Ranmar initialization seeds       30233       12404
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.444967D+04 0.444967D+04  1.00
 muF1, muF1_reference: 0.444967D+04 0.444967D+04  1.00
 muF2, muF2_reference: 0.444967D+04 0.444967D+04  1.00
 QES,  QES_reference:  0.444967D+04 0.444967D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4632721936817970E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4632721936817983E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4489254343421229E-006           OLP:   -1.4489254343421238E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5967089269851254E-006           OLP:   -1.5967089269852415E-006
  FINITE:
           OLP:   -1.5290860263729309E-004
           BORN:    5.4284666454054969E-004
  MOMENTA (Exyzm): 
           1   2224.8359388158920        0.0000000000000000        0.0000000000000000        2224.8359388158920        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2224.8359388158920       -0.0000000000000000       -0.0000000000000000       -2224.8359388158920        0.0000000000000000     
           3   2224.8359388158920       -1050.2514538316279       -1827.5477264260221        711.99448453370860        0.0000000000000000     
           4   2224.8359388158920        1050.2514538316279        1827.5477264260221       -711.99448453370860        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4489254343421229E-006           OLP:   -1.4489254343421238E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5967089269851257E-006           OLP:   -1.5967089269852415E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7273E-06  +/-  0.1793E-08  (   0.247 %)
Integral      = 0.4794E-06  +/-  0.1937E-08  (   0.404 %)
Virtual       = -.3591E-09  +/-  0.8751E-09  ( 243.709 %)
Virtual ratio = -.2878E+00  +/-  0.3803E-03  (   0.132 %)
ABS virtual   = 0.3422E-06  +/-  0.7462E-09  (   0.218 %)
Born          = 0.1816E-05  +/-  0.2921E-08  (   0.161 %)
V  2          = -.3591E-09  +/-  0.8751E-09  ( 243.709 %)
B  2          = 0.1816E-05  +/-  0.2921E-08  (   0.161 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7273E-06  +/-  0.1793E-08  (   0.247 %)
accumulated results Integral      = 0.4794E-06  +/-  0.1937E-08  (   0.404 %)
accumulated results Virtual       = -.3591E-09  +/-  0.8751E-09  ( 243.709 %)
accumulated results Virtual ratio = -.2878E+00  +/-  0.3803E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3422E-06  +/-  0.7462E-09  (   0.218 %)
accumulated results Born          = 0.1816E-05  +/-  0.2921E-08  (   0.161 %)
accumulated results V  2          = -.3591E-09  +/-  0.8751E-09  ( 243.709 %)
accumulated results B  2          = 0.1816E-05  +/-  0.2921E-08  (   0.161 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95580    10477  0.1262E-06  0.7860E-07  0.5455E+00
channel    2 :     1 T    96601    11478  0.1252E-06  0.8068E-07  0.8917E+00
channel    3 :     2 T   184078    22019  0.2392E-06  0.1585E-06  0.8174E+00
channel    4 :     2 T   183614    21560  0.2368E-06  0.1616E-06  0.8909E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2731392466692083E-007  +/-   1.7934321179992232E-009
 Final result:   4.7941083233475656E-007  +/-   1.9366772439544143E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360544
   Stability unknown:                                          0
   Stable PS point:                                       360544
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360544
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360544
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17431200    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.54472876    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.81789494    
 Time spent in Integrated_CT :    8.61743164    
 Time spent in Virtuals :    512.234375    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.16788292    
 Time spent in N1body_prefactor :   0.592383921    
 Time spent in Adding_alphas_pdf :    9.78816319    
 Time spent in Reweight_scale :    36.2348251    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4061394    
 Time spent in Applying_cuts :    4.69469070    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.8157310    
 Time spent in Other_tasks :    20.4920654    
 Time spent in Total :    661.580627    
Time in seconds: 668



LOG file for integration channel /P0_dxd_emep/all_G1_21, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39778
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          21
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  66297
  with seed                   48
 Ranmar initialization seeds       30233       15561
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432184D+04 0.432184D+04  1.00
 muF1, muF1_reference: 0.432184D+04 0.432184D+04  1.00
 muF2, muF2_reference: 0.432184D+04 0.432184D+04  1.00
 QES,  QES_reference:  0.432184D+04 0.432184D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4837663190643514E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4837663190643514E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2933114577580688E-006           OLP:   -1.2933114577580694E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.3225799502873207E-006           OLP:   -1.3225799502873495E-006
  FINITE:
           OLP:   -1.2818150162121603E-004
           BORN:    4.8454516320559641E-004
  MOMENTA (Exyzm): 
           1   2160.9198753654186        0.0000000000000000        0.0000000000000000        2160.9198753654186        0.0000000000000000     
           2   2160.9198753654186       -0.0000000000000000       -0.0000000000000000       -2160.9198753654186        0.0000000000000000     
           3   2160.9198753654186       -1267.1646719284149       -1548.0335612830706        816.98255495885701        0.0000000000000000     
           4   2160.9198753654186        1267.1646719284149        1548.0335612830706       -816.98255495885701        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2933114577580688E-006           OLP:   -1.2933114577580694E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.3225799502873203E-006           OLP:   -1.3225799502873495E-006
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7272E-06  +/-  0.1562E-08  (   0.215 %)
Integral      = 0.4813E-06  +/-  0.1724E-08  (   0.358 %)
Virtual       = -.1092E-08  +/-  0.8737E-09  (  80.005 %)
Virtual ratio = -.2882E+00  +/-  0.3795E-03  (   0.132 %)
ABS virtual   = 0.3418E-06  +/-  0.7448E-09  (   0.218 %)
Born          = 0.1818E-05  +/-  0.2940E-08  (   0.162 %)
V  2          = -.1092E-08  +/-  0.8737E-09  (  80.005 %)
B  2          = 0.1818E-05  +/-  0.2940E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7272E-06  +/-  0.1562E-08  (   0.215 %)
accumulated results Integral      = 0.4813E-06  +/-  0.1724E-08  (   0.358 %)
accumulated results Virtual       = -.1092E-08  +/-  0.8737E-09  (  80.005 %)
accumulated results Virtual ratio = -.2882E+00  +/-  0.3795E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3418E-06  +/-  0.7448E-09  (   0.218 %)
accumulated results Born          = 0.1818E-05  +/-  0.2940E-08  (   0.162 %)
accumulated results V  2          = -.1092E-08  +/-  0.8737E-09  (  80.005 %)
accumulated results B  2          = 0.1818E-05  +/-  0.2940E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95112    10477  0.1254E-06  0.7967E-07  0.8454E+00
channel    2 :     1 T    96699    11478  0.1246E-06  0.8067E-07  0.8850E+00
channel    3 :     2 T   184181    22019  0.2386E-06  0.1585E-06  0.8375E+00
channel    4 :     2 T   183881    21560  0.2385E-06  0.1624E-06  0.8655E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2717283038207106E-007  +/-   1.5619557675055931E-009
 Final result:   4.8125302591768271E-007  +/-   1.7235133608053181E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360428
   Stability unknown:                                          0
   Stable PS point:                                       360428
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360428
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360428
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.15397120    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.44313240    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.78510571    
 Time spent in Integrated_CT :    8.49752808    
 Time spent in Virtuals :    510.060883    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.02573586    
 Time spent in N1body_prefactor :   0.585689664    
 Time spent in Adding_alphas_pdf :    9.58373356    
 Time spent in Reweight_scale :    35.8804665    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.2044840    
 Time spent in Applying_cuts :    4.68008375    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2172318    
 Time spent in Other_tasks :    20.6636353    
 Time spent in Total :    657.781677    
Time in seconds: 663



LOG file for integration channel /P0_dxd_emep/all_G1_22, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39789
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          22
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  69454
  with seed                   48
 Ranmar initialization seeds       30233       18718
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.446783D+04 0.446783D+04  1.00
 muF1, muF1_reference: 0.446783D+04 0.446783D+04  1.00
 muF2, muF2_reference: 0.446783D+04 0.446783D+04  1.00
 QES,  QES_reference:  0.446783D+04 0.446783D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4604175552365384E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5092672812750408E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6722512731413243E-006           OLP:   -1.6722512731413222E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0037631751736368E-006           OLP:   -2.0037631751736885E-006
  FINITE:
           OLP:   -1.7640198569714014E-004
           BORN:    6.2651673052494005E-004
  MOMENTA (Exyzm): 
           1   2084.3959267557470        0.0000000000000000        0.0000000000000000        2084.3959267557470        0.0000000000000000     
           2   2084.3959267557470       -0.0000000000000000       -0.0000000000000000       -2084.3959267557470        0.0000000000000000     
           3   2084.3959267557470       -1912.4081505018930       -651.03538622871235        513.37546810098763        0.0000000000000000     
           4   2084.3959267557470        1912.4081505018930        651.03538622871235       -513.37546810098763        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6722512731413243E-006           OLP:   -1.6722512731413222E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0037631751736368E-006           OLP:   -2.0037631751736885E-006
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.7275E-06  +/-  0.1578E-08  (   0.217 %)
Integral      = 0.4828E-06  +/-  0.1738E-08  (   0.360 %)
Virtual       = -.5337E-09  +/-  0.8791E-09  ( 164.725 %)
Virtual ratio = -.2877E+00  +/-  0.3802E-03  (   0.132 %)
ABS virtual   = 0.3415E-06  +/-  0.7513E-09  (   0.220 %)
Born          = 0.1817E-05  +/-  0.2992E-08  (   0.165 %)
V  2          = -.5337E-09  +/-  0.8791E-09  ( 164.725 %)
B  2          = 0.1817E-05  +/-  0.2992E-08  (   0.165 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7275E-06  +/-  0.1578E-08  (   0.217 %)
accumulated results Integral      = 0.4828E-06  +/-  0.1738E-08  (   0.360 %)
accumulated results Virtual       = -.5337E-09  +/-  0.8791E-09  ( 164.725 %)
accumulated results Virtual ratio = -.2877E+00  +/-  0.3802E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3415E-06  +/-  0.7513E-09  (   0.220 %)
accumulated results Born          = 0.1817E-05  +/-  0.2992E-08  (   0.165 %)
accumulated results V  2          = -.5337E-09  +/-  0.8791E-09  ( 164.725 %)
accumulated results B  2          = 0.1817E-05  +/-  0.2992E-08  (   0.165 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                             1                                                     2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    94941    10477  0.1256E-06  0.7941E-07  0.8434E+00
channel    2 :     1 T    96471    11478  0.1240E-06  0.8073E-07  0.8949E+00
channel    3 :     2 T   184199    22019  0.2389E-06  0.1591E-06  0.8208E+00
channel    4 :     2 T   184263    21560  0.2389E-06  0.1635E-06  0.8740E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2746195127088173E-007  +/-   1.5784728502232018E-009
 Final result:   4.8277510292216504E-007  +/-   1.7379583950555909E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    359807
   Stability unknown:                                          0
   Stable PS point:                                       359807
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 359807
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       359807
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17309380    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.43423557    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.77269268    
 Time spent in Integrated_CT :    8.52200317    
 Time spent in Virtuals :    509.282623    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.99371815    
 Time spent in N1body_prefactor :   0.572323680    
 Time spent in Adding_alphas_pdf :    9.62077808    
 Time spent in Reweight_scale :    35.7951965    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.2930431    
 Time spent in Applying_cuts :    4.67354918    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.1290970    
 Time spent in Other_tasks :    20.6000366    
 Time spent in Total :    656.862305    
Time in seconds: 659



LOG file for integration channel /P0_dxd_emep/all_G1_23, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39782
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          23
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  72611
  with seed                   48
 Ranmar initialization seeds       30233       21875
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427053D+04 0.427053D+04  1.00
 muF1, muF1_reference: 0.427053D+04 0.427053D+04  1.00
 muF2, muF2_reference: 0.427053D+04 0.427053D+04  1.00
 QES,  QES_reference:  0.427053D+04 0.427053D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4921954102491306E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4921954102491306E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6592803423743562E-006           OLP:   -1.6592803423743551E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9796809570242033E-006           OLP:   -1.9796809570242354E-006
  FINITE:
           OLP:   -1.7711349972281121E-004
           BORN:    6.2165711088134389E-004
  MOMENTA (Exyzm): 
           1   2135.2636026061941        0.0000000000000000        0.0000000000000000        2135.2636026061941        0.0000000000000000     
           2   2135.2636026061941       -0.0000000000000000       -0.0000000000000000       -2135.2636026061941        0.0000000000000000     
           3   2135.2636026061941       -2034.9162066468266       -364.38899418290612        534.49728292970974        0.0000000000000000     
           4   2135.2636026061941        2034.9162066468266        364.38899418290612       -534.49728292970974        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6592803423743562E-006           OLP:   -1.6592803423743551E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.9796809570242033E-006           OLP:   -1.9796809570242354E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7259E-06  +/-  0.1606E-08  (   0.221 %)
Integral      = 0.4804E-06  +/-  0.1763E-08  (   0.367 %)
Virtual       = -.1349E-08  +/-  0.8836E-09  (  65.523 %)
Virtual ratio = -.2882E+00  +/-  0.3797E-03  (   0.132 %)
ABS virtual   = 0.3403E-06  +/-  0.7576E-09  (   0.223 %)
Born          = 0.1813E-05  +/-  0.2945E-08  (   0.162 %)
V  2          = -.1349E-08  +/-  0.8836E-09  (  65.523 %)
B  2          = 0.1813E-05  +/-  0.2945E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7259E-06  +/-  0.1606E-08  (   0.221 %)
accumulated results Integral      = 0.4804E-06  +/-  0.1763E-08  (   0.367 %)
accumulated results Virtual       = -.1349E-08  +/-  0.8836E-09  (  65.523 %)
accumulated results Virtual ratio = -.2882E+00  +/-  0.3797E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3403E-06  +/-  0.7576E-09  (   0.223 %)
accumulated results Born          = 0.1813E-05  +/-  0.2945E-08  (   0.162 %)
accumulated results V  2          = -.1349E-08  +/-  0.8836E-09  (  65.523 %)
accumulated results B  2          = 0.1813E-05  +/-  0.2945E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    94608    10477  0.1224E-06  0.7743E-07  0.8655E+00
channel    2 :     1 T    97031    11478  0.1256E-06  0.8155E-07  0.8956E+00
channel    3 :     2 T   184016    22019  0.2389E-06  0.1591E-06  0.8080E+00
channel    4 :     2 T   184219    21560  0.2390E-06  0.1622E-06  0.8492E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2587911507339334E-007  +/-   1.6062135193636718E-009
 Final result:   4.8035163184314387E-007  +/-   1.7632087006752047E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    359415
   Stability unknown:                                          0
   Stable PS point:                                       359415
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 359415
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       359415
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22183728    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.41395235    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.75074863    
 Time spent in Integrated_CT :    8.67541504    
 Time spent in Virtuals :    510.831726    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.11868334    
 Time spent in N1body_prefactor :   0.588601172    
 Time spent in Adding_alphas_pdf :    9.74396515    
 Time spent in Reweight_scale :    36.3037262    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7139664    
 Time spent in Applying_cuts :    4.69499779    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.6637802    
 Time spent in Other_tasks :    20.5932007    
 Time spent in Total :    660.314636    
Time in seconds: 667



LOG file for integration channel /P0_dxd_emep/all_G1_24, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39777
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          24
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  75768
  with seed                   48
 Ranmar initialization seeds       30233       25032
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438802D+04 0.438802D+04  1.00
 muF1, muF1_reference: 0.438802D+04 0.438802D+04  1.00
 muF2, muF2_reference: 0.438802D+04 0.438802D+04  1.00
 QES,  QES_reference:  0.438802D+04 0.438802D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4730674764330374E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4730674764330374E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5175711648803682E-006           OLP:   -1.5175711648803680E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7200383802583160E-006           OLP:   -1.7200383802584653E-006
  FINITE:
           OLP:   -1.6114947871125436E-004
           BORN:    5.6856510730814136E-004
  MOMENTA (Exyzm): 
           1   2194.0111505241716        0.0000000000000000        0.0000000000000000        2194.0111505241716        0.0000000000000000     
           2   2194.0111505241716       -0.0000000000000000       -0.0000000000000000       -2194.0111505241716        0.0000000000000000     
           3   2194.0111505241716       -1280.6336770821588       -1658.6068265337076        650.14283716981208        0.0000000000000000     
           4   2194.0111505241716        1280.6336770821588        1658.6068265337076       -650.14283716981208        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5175711648803682E-006           OLP:   -1.5175711648803680E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7200383802583160E-006           OLP:   -1.7200383802584653E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7252E-06  +/-  0.1569E-08  (   0.216 %)
Integral      = 0.4817E-06  +/-  0.1728E-08  (   0.359 %)
Virtual       = -.1291E-08  +/-  0.8780E-09  (  68.034 %)
Virtual ratio = -.2882E+00  +/-  0.3800E-03  (   0.132 %)
ABS virtual   = 0.3415E-06  +/-  0.7501E-09  (   0.220 %)
Born          = 0.1816E-05  +/-  0.2933E-08  (   0.162 %)
V  2          = -.1291E-08  +/-  0.8780E-09  (  68.034 %)
B  2          = 0.1816E-05  +/-  0.2933E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7252E-06  +/-  0.1569E-08  (   0.216 %)
accumulated results Integral      = 0.4817E-06  +/-  0.1728E-08  (   0.359 %)
accumulated results Virtual       = -.1291E-08  +/-  0.8780E-09  (  68.034 %)
accumulated results Virtual ratio = -.2882E+00  +/-  0.3800E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3415E-06  +/-  0.7501E-09  (   0.220 %)
accumulated results Born          = 0.1816E-05  +/-  0.2933E-08  (   0.162 %)
accumulated results V  2          = -.1291E-08  +/-  0.8780E-09  (  68.034 %)
accumulated results B  2          = 0.1816E-05  +/-  0.2933E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                             1                                                     2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95911    10477  0.1244E-06  0.7880E-07  0.8791E+00
channel    2 :     1 T    96635    11478  0.1246E-06  0.8157E-07  0.8762E+00
channel    3 :     2 T   183459    22019  0.2378E-06  0.1583E-06  0.8082E+00
channel    4 :     2 T   183871    21560  0.2384E-06  0.1630E-06  0.8874E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2518356525950871E-007  +/-   1.5690303526842991E-009
 Final result:   4.8166941705992345E-007  +/-   1.7282280685729143E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360369
   Stability unknown:                                          0
   Stable PS point:                                       360369
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360369
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360369
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.16559291    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.46762609    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.74872303    
 Time spent in Integrated_CT :    8.56585693    
 Time spent in Virtuals :    513.922485    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.09010029    
 Time spent in N1body_prefactor :   0.580338180    
 Time spent in Adding_alphas_pdf :    9.76467800    
 Time spent in Reweight_scale :    35.9328079    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.2309494    
 Time spent in Applying_cuts :    4.70094395    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.4393158    
 Time spent in Other_tasks :    20.5126343    
 Time spent in Total :    662.122009    
Time in seconds: 668



LOG file for integration channel /P0_dxd_emep/all_G1_25, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39639
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          25
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  78925
  with seed                   48
 Ranmar initialization seeds       30233       28189
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.417109D+04 0.417109D+04  1.00
 muF1, muF1_reference: 0.417109D+04 0.417109D+04  1.00
 muF2, muF2_reference: 0.417109D+04 0.417109D+04  1.00
 QES,  QES_reference:  0.417109D+04 0.417109D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5088758443307188E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5088758443307188E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9785707874686786E-006           OLP:   -1.9785707874686794E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.5905131760353551E-006           OLP:   -2.5905131760353674E-006
  FINITE:
           OLP:   -2.1218778438722511E-004
           BORN:    7.4128076371467145E-004
  MOMENTA (Exyzm): 
           1   2085.5460833763941        0.0000000000000000        0.0000000000000000        2085.5460833763941        0.0000000000000000     
           2   2085.5460833763941       -0.0000000000000000       -0.0000000000000000       -2085.5460833763941        0.0000000000000000     
           3   2085.5460833763941       -2011.8886388221474       -440.19160134344560        328.69123044534780        0.0000000000000000     
           4   2085.5460833763941        2011.8886388221474        440.19160134344560       -328.69123044534780        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9785707874686786E-006           OLP:   -1.9785707874686794E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.5905131760353543E-006           OLP:   -2.5905131760353674E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.7270E-06  +/-  0.1575E-08  (   0.217 %)
Integral      = 0.4833E-06  +/-  0.1734E-08  (   0.359 %)
Virtual       = 0.9772E-09  +/-  0.8773E-09  (  89.776 %)
Virtual ratio = -.2872E+00  +/-  0.3809E-03  (   0.133 %)
ABS virtual   = 0.3427E-06  +/-  0.7482E-09  (   0.218 %)
Born          = 0.1817E-05  +/-  0.2992E-08  (   0.165 %)
V  2          = 0.9772E-09  +/-  0.8773E-09  (  89.776 %)
B  2          = 0.1817E-05  +/-  0.2992E-08  (   0.165 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7270E-06  +/-  0.1575E-08  (   0.217 %)
accumulated results Integral      = 0.4833E-06  +/-  0.1734E-08  (   0.359 %)
accumulated results Virtual       = 0.9772E-09  +/-  0.8773E-09  (  89.776 %)
accumulated results Virtual ratio = -.2872E+00  +/-  0.3809E-03  (   0.133 %)
accumulated results ABS virtual   = 0.3427E-06  +/-  0.7482E-09  (   0.218 %)
accumulated results Born          = 0.1817E-05  +/-  0.2992E-08  (   0.165 %)
accumulated results V  2          = 0.9772E-09  +/-  0.8773E-09  (  89.776 %)
accumulated results B  2          = 0.1817E-05  +/-  0.2992E-08  (   0.165 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95110    10477  0.1240E-06  0.7886E-07  0.8708E+00
channel    2 :     1 T    96937    11478  0.1264E-06  0.8250E-07  0.8601E+00
channel    3 :     2 T   184024    22019  0.2392E-06  0.1599E-06  0.8215E+00
channel    4 :     2 T   183804    21560  0.2375E-06  0.1620E-06  0.8766E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2704798988750545E-007  +/-   1.5745091834522857E-009
 Final result:   4.8325637086321521E-007  +/-   1.7338097256729798E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360037
   Stability unknown:                                          0
   Stable PS point:                                       360037
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360037
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360037
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.15928960    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.43164349    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.73284531    
 Time spent in Integrated_CT :    8.46759033    
 Time spent in Virtuals :    510.335815    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.12906837    
 Time spent in N1body_prefactor :   0.595966697    
 Time spent in Adding_alphas_pdf :    9.61835670    
 Time spent in Reweight_scale :    35.8528214    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5321503    
 Time spent in Applying_cuts :    4.71127748    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2614021    
 Time spent in Other_tasks :    20.2368164    
 Time spent in Total :    658.065125    
Time in seconds: 681



LOG file for integration channel /P0_dxd_emep/all_G1_26, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39636
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          26
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  82082
  with seed                   48
 Ranmar initialization seeds       30233        1265
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424449D+04 0.424449D+04  1.00
 muF1, muF1_reference: 0.424449D+04 0.424449D+04  1.00
 muF2, muF2_reference: 0.424449D+04 0.424449D+04  1.00
 QES,  QES_reference:  0.424449D+04 0.424449D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4965191254506680E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4965191254506680E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9184070501807798E-006           OLP:   -1.9184070501807815E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.4726766906206282E-006           OLP:   -2.4726766906208336E-006
  FINITE:
           OLP:   -2.0744492651230287E-004
           BORN:    7.1874013923604971E-004
  MOMENTA (Exyzm): 
           1   2122.2429840496034        0.0000000000000000        0.0000000000000000        2122.2429840496034        0.0000000000000000     
           2   2122.2429840496034       -0.0000000000000000       -0.0000000000000000       -2122.2429840496034        0.0000000000000000     
           3   2122.2429840496034       -1316.8926693663934       -1622.7080423916605        369.49640035356839        0.0000000000000000     
           4   2122.2429840496034        1316.8926693663934        1622.7080423916605       -369.49640035356839        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9184070501807798E-006           OLP:   -1.9184070501807815E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.4726766906206278E-006           OLP:   -2.4726766906208336E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7300E-06  +/-  0.1611E-08  (   0.221 %)
Integral      = 0.4848E-06  +/-  0.1768E-08  (   0.365 %)
Virtual       = -.1661E-09  +/-  0.8894E-09  ( 535.331 %)
Virtual ratio = -.2875E+00  +/-  0.3796E-03  (   0.132 %)
ABS virtual   = 0.3426E-06  +/-  0.7624E-09  (   0.223 %)
Born          = 0.1822E-05  +/-  0.3002E-08  (   0.165 %)
V  2          = -.1661E-09  +/-  0.8894E-09  ( 535.331 %)
B  2          = 0.1822E-05  +/-  0.3002E-08  (   0.165 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7300E-06  +/-  0.1611E-08  (   0.221 %)
accumulated results Integral      = 0.4848E-06  +/-  0.1768E-08  (   0.365 %)
accumulated results Virtual       = -.1661E-09  +/-  0.8894E-09  ( 535.331 %)
accumulated results Virtual ratio = -.2875E+00  +/-  0.3796E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3426E-06  +/-  0.7624E-09  (   0.223 %)
accumulated results Born          = 0.1822E-05  +/-  0.3002E-08  (   0.165 %)
accumulated results V  2          = -.1661E-09  +/-  0.8894E-09  ( 535.331 %)
accumulated results B  2          = 0.1822E-05  +/-  0.3002E-08  (   0.165 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95234    10477  0.1243E-06  0.7926E-07  0.8512E+00
channel    2 :     1 T    96717    11478  0.1251E-06  0.8069E-07  0.9112E+00
channel    3 :     2 T   183689    22019  0.2398E-06  0.1602E-06  0.8171E+00
channel    4 :     2 T   184229    21560  0.2407E-06  0.1646E-06  0.8480E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2997870929894265E-007  +/-   1.6110477248377078E-009
 Final result:   4.8480225345028401E-007  +/-   1.7684585981700489E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360589
   Stability unknown:                                          0
   Stable PS point:                                       360589
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360589
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360589
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.16734385    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.39447689    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.71426010    
 Time spent in Integrated_CT :    8.48129272    
 Time spent in Virtuals :    510.979156    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.04622650    
 Time spent in N1body_prefactor :   0.575032473    
 Time spent in Adding_alphas_pdf :    9.73492813    
 Time spent in Reweight_scale :    35.9010239    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.2405853    
 Time spent in Applying_cuts :    4.69218493    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2567863    
 Time spent in Other_tasks :    20.5015869    
 Time spent in Total :    658.684814    
Time in seconds: 683



LOG file for integration channel /P0_dxd_emep/all_G1_27, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39673
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          27
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  85239
  with seed                   48
 Ranmar initialization seeds       30233        4422
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431849D+04 0.431849D+04  1.00
 muF1, muF1_reference: 0.431849D+04 0.431849D+04  1.00
 muF2, muF2_reference: 0.431849D+04 0.431849D+04  1.00
 QES,  QES_reference:  0.431849D+04 0.431849D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4843126465175158E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4843126465175158E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5219141316558088E-006           OLP:   -1.5219141316558075E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7278750941866645E-006           OLP:   -1.7278750941867319E-006
  FINITE:
           OLP:   -1.6032556214813260E-004
           BORN:    5.7019222004450439E-004
  MOMENTA (Exyzm): 
           1   2159.2459754516858        0.0000000000000000        0.0000000000000000        2159.2459754516858        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2159.2459754516858       -0.0000000000000000       -0.0000000000000000       -2159.2459754516858        0.0000000000000000     
           3   2159.2459754516858       -2063.0694265104853       -26.558599667442294        636.69644626438901        0.0000000000000000     
           4   2159.2459754516858        2063.0694265104853        26.558599667442294       -636.69644626438901        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5219141316558088E-006           OLP:   -1.5219141316558075E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7278750941866643E-006           OLP:   -1.7278750941867319E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.7259E-06  +/-  0.1568E-08  (   0.216 %)
Integral      = 0.4812E-06  +/-  0.1728E-08  (   0.359 %)
Virtual       = -.4107E-09  +/-  0.8881E-09  ( 216.225 %)
Virtual ratio = -.2879E+00  +/-  0.3799E-03  (   0.132 %)
ABS virtual   = 0.3422E-06  +/-  0.7613E-09  (   0.222 %)
Born          = 0.1817E-05  +/-  0.2928E-08  (   0.161 %)
V  2          = -.4107E-09  +/-  0.8881E-09  ( 216.225 %)
B  2          = 0.1817E-05  +/-  0.2928E-08  (   0.161 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7259E-06  +/-  0.1568E-08  (   0.216 %)
accumulated results Integral      = 0.4812E-06  +/-  0.1728E-08  (   0.359 %)
accumulated results Virtual       = -.4107E-09  +/-  0.8881E-09  ( 216.225 %)
accumulated results Virtual ratio = -.2879E+00  +/-  0.3799E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3422E-06  +/-  0.7613E-09  (   0.222 %)
accumulated results Born          = 0.1817E-05  +/-  0.2928E-08  (   0.161 %)
accumulated results V  2          = -.4107E-09  +/-  0.8881E-09  ( 216.225 %)
accumulated results B  2          = 0.1817E-05  +/-  0.2928E-08  (   0.161 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    94700    10477  0.1237E-06  0.7846E-07  0.8456E+00
channel    2 :     1 T    97124    11478  0.1255E-06  0.8190E-07  0.9110E+00
channel    3 :     2 T   184389    22019  0.2393E-06  0.1585E-06  0.8243E+00
channel    4 :     2 T   183656    21560  0.2375E-06  0.1623E-06  0.8970E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2590765421693237E-007  +/-   1.5679927082465702E-009
 Final result:   4.8119854051586820E-007  +/-   1.7280635605068035E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360464
   Stability unknown:                                          0
   Stable PS point:                                       360464
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360464
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360464
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.15009260    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.46256447    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.70073318    
 Time spent in Integrated_CT :    8.49661255    
 Time spent in Virtuals :    510.665680    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.07547760    
 Time spent in N1body_prefactor :   0.567079842    
 Time spent in Adding_alphas_pdf :    9.65692902    
 Time spent in Reweight_scale :    35.7036667    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4154472    
 Time spent in Applying_cuts :    4.68950272    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.3050308    
 Time spent in Other_tasks :    20.2956543    
 Time spent in Total :    658.184570    
Time in seconds: 676



LOG file for integration channel /P0_dxd_emep/all_G1_28, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39640
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          28
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  88396
  with seed                   48
 Ranmar initialization seeds       30233        7579
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419223D+04 0.419223D+04  1.00
 muF1, muF1_reference: 0.419223D+04 0.419223D+04  1.00
 muF2, muF2_reference: 0.419223D+04 0.419223D+04  1.00
 QES,  QES_reference:  0.419223D+04 0.419223D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5052914029586790E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5052914029586790E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7944766306676024E-006           OLP:   -1.7944766306676031E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2339146522199187E-006           OLP:   -2.2339146522198318E-006
  FINITE:
           OLP:   -1.9174336712699620E-004
           BORN:    6.7230903017184490E-004
  MOMENTA (Exyzm): 
           1   2096.1132492227453        0.0000000000000000        0.0000000000000000        2096.1132492227453        0.0000000000000000     
           2   2096.1132492227453       -0.0000000000000000       -0.0000000000000000       -2096.1132492227453        0.0000000000000000     
           3   2096.1132492227453       -1536.0517779819381       -1357.0136166481457        439.03272447185680        0.0000000000000000     
           4   2096.1132492227453        1536.0517779819381        1357.0136166481457       -439.03272447185680        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7944766306676024E-006           OLP:   -1.7944766306676031E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2339146522199182E-006           OLP:   -2.2339146522198318E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7274E-06  +/-  0.1846E-08  (   0.254 %)
Integral      = 0.4811E-06  +/-  0.1985E-08  (   0.413 %)
Virtual       = -.8684E-09  +/-  0.8932E-09  ( 102.860 %)
Virtual ratio = -.2883E+00  +/-  0.3797E-03  (   0.132 %)
ABS virtual   = 0.3415E-06  +/-  0.7678E-09  (   0.225 %)
Born          = 0.1816E-05  +/-  0.2968E-08  (   0.163 %)
V  2          = -.8684E-09  +/-  0.8932E-09  ( 102.860 %)
B  2          = 0.1816E-05  +/-  0.2968E-08  (   0.163 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7274E-06  +/-  0.1846E-08  (   0.254 %)
accumulated results Integral      = 0.4811E-06  +/-  0.1985E-08  (   0.413 %)
accumulated results Virtual       = -.8684E-09  +/-  0.8932E-09  ( 102.860 %)
accumulated results Virtual ratio = -.2883E+00  +/-  0.3797E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3415E-06  +/-  0.7678E-09  (   0.225 %)
accumulated results Born          = 0.1816E-05  +/-  0.2968E-08  (   0.163 %)
accumulated results V  2          = -.8684E-09  +/-  0.8932E-09  ( 102.860 %)
accumulated results B  2          = 0.1816E-05  +/-  0.2968E-08  (   0.163 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95541    10477  0.1240E-06  0.7982E-07  0.8672E+00
channel    2 :     1 T    96342    11478  0.1257E-06  0.8164E-07  0.8670E+00
channel    3 :     2 T   183626    22019  0.2380E-06  0.1581E-06  0.8329E+00
channel    4 :     2 T   184365    21560  0.2398E-06  0.1615E-06  0.6539E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2744408183560810E-007  +/-   1.8459177437484186E-009
 Final result:   4.8110054655441060E-007  +/-   1.9847346524877274E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360168
   Stability unknown:                                          0
   Stable PS point:                                       360168
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360168
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360168
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.18987286    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.39879322    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.70003939    
 Time spent in Integrated_CT :    8.52273560    
 Time spent in Virtuals :    511.149506    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.09587049    
 Time spent in N1body_prefactor :   0.577827275    
 Time spent in Adding_alphas_pdf :    9.73451233    
 Time spent in Reweight_scale :    35.9356155    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.3337631    
 Time spent in Applying_cuts :    4.65300512    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2724152    
 Time spent in Other_tasks :    20.3981934    
 Time spent in Total :    658.962097    
Time in seconds: 683



LOG file for integration channel /P0_dxd_emep/all_G1_29, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39672
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          29
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  91553
  with seed                   48
 Ranmar initialization seeds       30233       10736
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.445988D+04 0.445988D+04  1.00
 muF1, muF1_reference: 0.445988D+04 0.445988D+04  1.00
 muF2, muF2_reference: 0.445988D+04 0.445988D+04  1.00
 QES,  QES_reference:  0.445988D+04 0.445988D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4616657482452678E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4616657482452678E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5860999947356781E-006           OLP:   -1.5860999947356770E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8447733892265932E-006           OLP:   -1.8447733892266847E-006
  FINITE:
           OLP:   -1.7178424390422984E-004
           BORN:    5.9423975269022936E-004
  MOMENTA (Exyzm): 
           1   2229.9406797888914        0.0000000000000000        0.0000000000000000        2229.9406797888914        0.0000000000000000     
           2   2229.9406797888914       -0.0000000000000000       -0.0000000000000000       -2229.9406797888914        0.0000000000000000     
           3   2229.9406797888914       -1548.6547092637900       -1483.9286864605026        610.13087149564558        0.0000000000000000     
           4   2229.9406797888914        1548.6547092637900        1483.9286864605026       -610.13087149564558        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5860999947356781E-006           OLP:   -1.5860999947356770E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8447733892265930E-006           OLP:   -1.8447733892266847E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.7292E-06  +/-  0.1609E-08  (   0.221 %)
Integral      = 0.4850E-06  +/-  0.1766E-08  (   0.364 %)
Virtual       = 0.9103E-09  +/-  0.8821E-09  (  96.901 %)
Virtual ratio = -.2875E+00  +/-  0.3800E-03  (   0.132 %)
ABS virtual   = 0.3422E-06  +/-  0.7543E-09  (   0.220 %)
Born          = 0.1817E-05  +/-  0.2933E-08  (   0.161 %)
V  2          = 0.9103E-09  +/-  0.8821E-09  (  96.901 %)
B  2          = 0.1817E-05  +/-  0.2933E-08  (   0.161 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7292E-06  +/-  0.1609E-08  (   0.221 %)
accumulated results Integral      = 0.4850E-06  +/-  0.1766E-08  (   0.364 %)
accumulated results Virtual       = 0.9103E-09  +/-  0.8821E-09  (  96.901 %)
accumulated results Virtual ratio = -.2875E+00  +/-  0.3800E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3422E-06  +/-  0.7543E-09  (   0.220 %)
accumulated results Born          = 0.1817E-05  +/-  0.2933E-08  (   0.161 %)
accumulated results V  2          = 0.9103E-09  +/-  0.8821E-09  (  96.901 %)
accumulated results B  2          = 0.1817E-05  +/-  0.2933E-08  (   0.161 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    94623    10477  0.1236E-06  0.7858E-07  0.8401E+00
channel    2 :     1 T    97265    11478  0.1257E-06  0.8247E-07  0.8822E+00
channel    3 :     2 T   184596    22019  0.2401E-06  0.1596E-06  0.7862E+00
channel    4 :     2 T   183392    21560  0.2397E-06  0.1644E-06  0.8838E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2921509399488747E-007  +/-   1.6089835661080542E-009
 Final result:   4.8502304392182327E-007  +/-   1.7659067044448051E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360411
   Stability unknown:                                          0
   Stable PS point:                                       360411
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360411
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360411
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19274247    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.41487598    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.75650406    
 Time spent in Integrated_CT :    8.48092651    
 Time spent in Virtuals :    511.977875    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.08202076    
 Time spent in N1body_prefactor :   0.576635480    
 Time spent in Adding_alphas_pdf :    9.96800041    
 Time spent in Reweight_scale :    35.9821625    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4105186    
 Time spent in Applying_cuts :    4.67634773    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2947197    
 Time spent in Other_tasks :    20.3768311    
 Time spent in Total :    660.190247    
Time in seconds: 679



LOG file for integration channel /P0_dxd_emep/all_G1_30, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39657
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          30
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  94710
  with seed                   48
 Ranmar initialization seeds       30233       13893
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411539D+04 0.411539D+04  1.00
 muF1, muF1_reference: 0.411539D+04 0.411539D+04  1.00
 muF2, muF2_reference: 0.411539D+04 0.411539D+04  1.00
 QES,  QES_reference:  0.411539D+04 0.411539D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5184271377208123E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5184271377208123E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8691793880940641E-006           OLP:   -1.8691793880940673E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3771435431150827E-006           OLP:   -2.3771435431150937E-006
  FINITE:
           OLP:   -1.9844413525659985E-004
           BORN:    7.0029676628288154E-004
  MOMENTA (Exyzm): 
           1   2057.6948808041675        0.0000000000000000        0.0000000000000000        2057.6948808041675        0.0000000000000000     
           2   2057.6948808041675       -0.0000000000000000       -0.0000000000000000       -2057.6948808041675        0.0000000000000000     
           3   2057.6948808041675       -1926.3503488055296       -611.33160698528843        386.72499588890929        0.0000000000000000     
           4   2057.6948808041675        1926.3503488055296        611.33160698528843       -386.72499588890929        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8691793880940641E-006           OLP:   -1.8691793880940673E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.3771435431150831E-006           OLP:   -2.3771435431150937E-006
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7282E-06  +/-  0.1591E-08  (   0.218 %)
Integral      = 0.4831E-06  +/-  0.1750E-08  (   0.362 %)
Virtual       = -.9882E-09  +/-  0.8766E-09  (  88.705 %)
Virtual ratio = -.2878E+00  +/-  0.3802E-03  (   0.132 %)
ABS virtual   = 0.3416E-06  +/-  0.7483E-09  (   0.219 %)
Born          = 0.1821E-05  +/-  0.2947E-08  (   0.162 %)
V  2          = -.9882E-09  +/-  0.8766E-09  (  88.705 %)
B  2          = 0.1821E-05  +/-  0.2947E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7282E-06  +/-  0.1591E-08  (   0.218 %)
accumulated results Integral      = 0.4831E-06  +/-  0.1750E-08  (   0.362 %)
accumulated results Virtual       = -.9882E-09  +/-  0.8766E-09  (  88.705 %)
accumulated results Virtual ratio = -.2878E+00  +/-  0.3802E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3416E-06  +/-  0.7483E-09  (   0.219 %)
accumulated results Born          = 0.1821E-05  +/-  0.2947E-08  (   0.162 %)
accumulated results V  2          = -.9882E-09  +/-  0.8766E-09  (  88.705 %)
accumulated results B  2          = 0.1821E-05  +/-  0.2947E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    94520    10477  0.1232E-06  0.7892E-07  0.8824E+00
channel    2 :     1 T    97202    11478  0.1261E-06  0.8197E-07  0.8804E+00
channel    3 :     2 T   183896    22019  0.2388E-06  0.1595E-06  0.8124E+00
channel    4 :     2 T   184260    21560  0.2401E-06  0.1628E-06  0.8452E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2824495870842479E-007  +/-   1.5909261794884706E-009
 Final result:   4.8312503584192179E-007  +/-   1.7496860054398399E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360313
   Stability unknown:                                          0
   Stable PS point:                                       360313
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360313
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360313
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17700684    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.45342922    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.70714808    
 Time spent in Integrated_CT :    8.43194580    
 Time spent in Virtuals :    511.625244    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.07741070    
 Time spent in N1body_prefactor :   0.580245137    
 Time spent in Adding_alphas_pdf :    9.70116901    
 Time spent in Reweight_scale :    35.7586899    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.2510090    
 Time spent in Applying_cuts :    4.66096067    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.1391678    
 Time spent in Other_tasks :    20.3741455    
 Time spent in Total :    658.937561    
Time in seconds: 682



LOG file for integration channel /P0_dxd_emep/all_G1_31, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39642
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          31
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 ,  97867
  with seed                   48
 Ranmar initialization seeds       30233       17050
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.412329D+04 0.412329D+04  1.00
 muF1, muF1_reference: 0.412329D+04 0.412329D+04  1.00
 muF2, muF2_reference: 0.412329D+04 0.412329D+04  1.00
 QES,  QES_reference:  0.412329D+04 0.412329D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5170623870760872E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5170623870760872E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8821534088760696E-006           OLP:   -1.8821534088760698E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.4022282546053455E-006           OLP:   -2.4022282546053718E-006
  FINITE:
           OLP:   -2.0012660099201935E-004
           BORN:    7.0515754361500792E-004
  MOMENTA (Exyzm): 
           1   2061.6473312247799        0.0000000000000000        0.0000000000000000        2061.6473312247799        0.0000000000000000     
           2   2061.6473312247799       -0.0000000000000000       -0.0000000000000000       -2061.6473312247799        0.0000000000000000     
           3   2061.6473312247799       -2003.7486137414169       -301.75319641060634        379.90290829577788        0.0000000000000000     
           4   2061.6473312247799        2003.7486137414169        301.75319641060634       -379.90290829577788        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8821534088760696E-006           OLP:   -1.8821534088760698E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.4022282546053455E-006           OLP:   -2.4022282546053718E-006
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7284E-06  +/-  0.1618E-08  (   0.222 %)
Integral      = 0.4822E-06  +/-  0.1775E-08  (   0.368 %)
Virtual       = -.7424E-09  +/-  0.8766E-09  ( 118.076 %)
Virtual ratio = -.2879E+00  +/-  0.3796E-03  (   0.132 %)
ABS virtual   = 0.3422E-06  +/-  0.7478E-09  (   0.219 %)
Born          = 0.1821E-05  +/-  0.2950E-08  (   0.162 %)
V  2          = -.7424E-09  +/-  0.8766E-09  ( 118.076 %)
B  2          = 0.1821E-05  +/-  0.2950E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7284E-06  +/-  0.1618E-08  (   0.222 %)
accumulated results Integral      = 0.4822E-06  +/-  0.1775E-08  (   0.368 %)
accumulated results Virtual       = -.7424E-09  +/-  0.8766E-09  ( 118.076 %)
accumulated results Virtual ratio = -.2879E+00  +/-  0.3796E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3422E-06  +/-  0.7478E-09  (   0.219 %)
accumulated results Born          = 0.1821E-05  +/-  0.2950E-08  (   0.162 %)
accumulated results V  2          = -.7424E-09  +/-  0.8766E-09  ( 118.076 %)
accumulated results B  2          = 0.1821E-05  +/-  0.2950E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95424    10477  0.1256E-06  0.7931E-07  0.8606E+00
channel    2 :     1 T    96677    11478  0.1228E-06  0.7959E-07  0.8832E+00
channel    3 :     2 T   183882    22019  0.2412E-06  0.1600E-06  0.7585E+00
channel    4 :     2 T   183889    21560  0.2388E-06  0.1633E-06  0.8787E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2839326679534595E-007  +/-   1.6184554446376145E-009
 Final result:   4.8220767754974494E-007  +/-   1.7753085943164512E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360833
   Stability unknown:                                          0
   Stable PS point:                                       360833
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360833
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360833
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.18825901    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.42693710    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.76825857    
 Time spent in Integrated_CT :    8.66540527    
 Time spent in Virtuals :    512.608521    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.11111832    
 Time spent in N1body_prefactor :   0.589940548    
 Time spent in Adding_alphas_pdf :    9.85708809    
 Time spent in Reweight_scale :    35.8846779    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4828472    
 Time spent in Applying_cuts :    4.69492149    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2103958    
 Time spent in Other_tasks :    20.7985229    
 Time spent in Total :    661.287048    
Time in seconds: 685



LOG file for integration channel /P0_dxd_emep/all_G1_32, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39641
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          32
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 , 101024
  with seed                   48
 Ranmar initialization seeds       30233       20207
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434407D+04 0.434407D+04  1.00
 muF1, muF1_reference: 0.434407D+04 0.434407D+04  1.00
 muF2, muF2_reference: 0.434407D+04 0.434407D+04  1.00
 QES,  QES_reference:  0.434407D+04 0.434407D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4801507853125976E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4801507853125976E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3525350231731253E-006           OLP:   -1.3525350231731253E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.4260428653382507E-006           OLP:   -1.4260428653382803E-006
  FINITE:
           OLP:   -1.3725347108168846E-004
           BORN:    5.0673354791178375E-004
  MOMENTA (Exyzm): 
           1   2172.0362793364852        0.0000000000000000        0.0000000000000000        2172.0362793364852        0.0000000000000000     
           2   2172.0362793364852       -0.0000000000000000       -0.0000000000000000       -2172.0362793364852        0.0000000000000000     
           3   2172.0362793364852       -2028.6246214228538       -84.950277476549886        771.49672356240308        0.0000000000000000     
           4   2172.0362793364852        2028.6246214228538        84.950277476549886       -771.49672356240308        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3525350231731253E-006           OLP:   -1.3525350231731253E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.4260428653382507E-006           OLP:   -1.4260428653382803E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7288E-06  +/-  0.1727E-08  (   0.237 %)
Integral      = 0.4823E-06  +/-  0.1875E-08  (   0.389 %)
Virtual       = -.1608E-08  +/-  0.8781E-09  (  54.593 %)
Virtual ratio = -.2880E+00  +/-  0.3791E-03  (   0.132 %)
ABS virtual   = 0.3410E-06  +/-  0.7506E-09  (   0.220 %)
Born          = 0.1820E-05  +/-  0.2948E-08  (   0.162 %)
V  2          = -.1608E-08  +/-  0.8781E-09  (  54.593 %)
B  2          = 0.1820E-05  +/-  0.2948E-08  (   0.162 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7288E-06  +/-  0.1727E-08  (   0.237 %)
accumulated results Integral      = 0.4823E-06  +/-  0.1875E-08  (   0.389 %)
accumulated results Virtual       = -.1608E-08  +/-  0.8781E-09  (  54.593 %)
accumulated results Virtual ratio = -.2880E+00  +/-  0.3791E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3410E-06  +/-  0.7506E-09  (   0.220 %)
accumulated results Born          = 0.1820E-05  +/-  0.2948E-08  (   0.162 %)
accumulated results V  2          = -.1608E-08  +/-  0.8781E-09  (  54.593 %)
accumulated results B  2          = 0.1820E-05  +/-  0.2948E-08  (   0.162 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95211    10477  0.1250E-06  0.7793E-07  0.6961E+00
channel    2 :     1 T    97195    11478  0.1262E-06  0.8097E-07  0.7547E+00
channel    3 :     2 T   183812    22019  0.2392E-06  0.1593E-06  0.8092E+00
channel    4 :     2 T   183660    21560  0.2385E-06  0.1641E-06  0.8810E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2879352983911440E-007  +/-   1.7274998141714221E-009
 Final result:   4.8232289423215062E-007  +/-   1.8754789962088413E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360284
   Stability unknown:                                          0
   Stable PS point:                                       360284
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360284
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360284
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.15945649    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.44872713    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.77400589    
 Time spent in Integrated_CT :    8.60476685    
 Time spent in Virtuals :    509.641876    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.08756399    
 Time spent in N1body_prefactor :   0.583398998    
 Time spent in Adding_alphas_pdf :    9.91987801    
 Time spent in Reweight_scale :    35.8607712    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6230755    
 Time spent in Applying_cuts :    4.66468859    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.5334091    
 Time spent in Other_tasks :    20.6364136    
 Time spent in Total :    658.537964    
Time in seconds: 683



LOG file for integration channel /P0_dxd_emep/all_G1_33, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39656
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          33
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 , 104181
  with seed                   48
 Ranmar initialization seeds       30233       23364
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.446611D+04 0.446611D+04  1.00
 muF1, muF1_reference: 0.446611D+04 0.446611D+04  1.00
 muF2, muF2_reference: 0.446611D+04 0.446611D+04  1.00
 QES,  QES_reference:  0.446611D+04 0.446611D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4606880832955483E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4606880832955483E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6057517802127018E-006           OLP:   -1.6057517802127013E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8808359737310371E-006           OLP:   -1.8808359737310864E-006
  FINITE:
           OLP:   -1.7450656242805465E-004
           BORN:    6.0160238567714519E-004
  MOMENTA (Exyzm): 
           1   2233.0542438063380        0.0000000000000000        0.0000000000000000        2233.0542438063380        0.0000000000000000     
           2   2233.0542438063380       -0.0000000000000000       -0.0000000000000000       -2233.0542438063380        0.0000000000000000     
           3   2233.0542438063380       -2084.8920729243209       -532.53016528289811        596.79805889646877        0.0000000000000000     
           4   2233.0542438063380        2084.8920729243209        532.53016528289811       -596.79805889646877        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6057517802127018E-006           OLP:   -1.6057517802127013E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8808359737310371E-006           OLP:   -1.8808359737310864E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.7280E-06  +/-  0.1690E-08  (   0.232 %)
Integral      = 0.4824E-06  +/-  0.1841E-08  (   0.382 %)
Virtual       = -.5960E-09  +/-  0.8779E-09  ( 147.305 %)
Virtual ratio = -.2873E+00  +/-  0.3800E-03  (   0.132 %)
ABS virtual   = 0.3416E-06  +/-  0.7499E-09  (   0.220 %)
Born          = 0.1818E-05  +/-  0.2961E-08  (   0.163 %)
V  2          = -.5960E-09  +/-  0.8779E-09  ( 147.305 %)
B  2          = 0.1818E-05  +/-  0.2961E-08  (   0.163 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7280E-06  +/-  0.1690E-08  (   0.232 %)
accumulated results Integral      = 0.4824E-06  +/-  0.1841E-08  (   0.382 %)
accumulated results Virtual       = -.5960E-09  +/-  0.8779E-09  ( 147.305 %)
accumulated results Virtual ratio = -.2873E+00  +/-  0.3800E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3416E-06  +/-  0.7499E-09  (   0.220 %)
accumulated results Born          = 0.1818E-05  +/-  0.2961E-08  (   0.163 %)
accumulated results V  2          = -.5960E-09  +/-  0.8779E-09  ( 147.305 %)
accumulated results B  2          = 0.1818E-05  +/-  0.2961E-08  (   0.163 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    95199    10477  0.1243E-06  0.7953E-07  0.8682E+00
channel    2 :     1 T    96345    11478  0.1249E-06  0.8043E-07  0.8466E+00
channel    3 :     2 T   184500    22019  0.2408E-06  0.1593E-06  0.7035E+00
channel    4 :     2 T   183824    21560  0.2380E-06  0.1632E-06  0.8771E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.2803772991481688E-007  +/-   1.6903920067539516E-009
 Final result:   4.8243299447859169E-007  +/-   1.8407701162395027E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360199
   Stability unknown:                                          0
   Stable PS point:                                       360199
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360199
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360199
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.16498375    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.51527405    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.76922131    
 Time spent in Integrated_CT :    8.53164673    
 Time spent in Virtuals :    509.916534    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.14577532    
 Time spent in N1body_prefactor :   0.592889726    
 Time spent in Adding_alphas_pdf :    9.77837086    
 Time spent in Reweight_scale :    35.9524384    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5791073    
 Time spent in Applying_cuts :    4.70100498    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2394409    
 Time spent in Other_tasks :    20.7670898    
 Time spent in Total :    658.653748    
Time in seconds: 682



LOG file for integration channel /P0_dxd_emep/all_G1_34, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39649
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      600819
 Maximum number of iterations is:           1
 Desired accuracy is:   3.2232816534405562E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          34
 Weight multiplier:   2.9411764705882353E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      600819           1
 imode is           -1
channel    1 :     1 F        0    10477  0.4200E-05  0.0000E+00  0.9096E+00
channel    2 :     1 F        0    11478  0.4275E-05  0.0000E+00  0.8602E+00
channel    3 :     2 F        0    22019  0.8117E-05  0.0000E+00  0.8361E+00
channel    4 :     2 F        0    21560  0.8112E-05  0.0000E+00  0.8799E+00
 ------- iteration           1
 Update # PS points (even_rn):       600819  -->       559872
Using random seed offsets:     0 ,      4 , 107338
  with seed                   48
 Ranmar initialization seeds       30233       26521
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.446197D+04 0.446197D+04  1.00
 muF1, muF1_reference: 0.446197D+04 0.446197D+04  1.00
 muF2, muF2_reference: 0.446197D+04 0.446197D+04  1.00
 QES,  QES_reference:  0.446197D+04 0.446197D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4613373355489634E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4868153326030834E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6492151919437653E-006           OLP:   -1.6492151919437641E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9610182727195915E-006           OLP:   -1.9610182727195830E-006
  FINITE:
           OLP:   -1.7657650187371217E-004
           BORN:    6.1788615537884358E-004
  MOMENTA (Exyzm): 
           1   2151.5975191233988        0.0000000000000000        0.0000000000000000        2151.5975191233988        0.0000000000000000     
           2   2151.5975191233988       -0.0000000000000000       -0.0000000000000000       -2151.5975191233988        0.0000000000000000     
           3   2151.5975191233988       -2073.6261367107631       -178.96323339513330        545.36106437911121        0.0000000000000000     
           4   2151.5975191233988        2073.6261367107631        178.96323339513330       -545.36106437911121        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6492151919437653E-006           OLP:   -1.6492151919437641E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9610182727195911E-006           OLP:   -1.9610182727195830E-006
 REAL 3: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.7304E-06  +/-  0.1599E-08  (   0.219 %)
Integral      = 0.4846E-06  +/-  0.1758E-08  (   0.363 %)
Virtual       = 0.1003E-09  +/-  0.8842E-09  ( 881.442 %)
Virtual ratio = -.2872E+00  +/-  0.3801E-03  (   0.132 %)
ABS virtual   = 0.3434E-06  +/-  0.7558E-09  (   0.220 %)
Born          = 0.1825E-05  +/-  0.2999E-08  (   0.164 %)
V  2          = 0.1003E-09  +/-  0.8842E-09  ( 881.442 %)
B  2          = 0.1825E-05  +/-  0.2999E-08  (   0.164 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.7304E-06  +/-  0.1599E-08  (   0.219 %)
accumulated results Integral      = 0.4846E-06  +/-  0.1758E-08  (   0.363 %)
accumulated results Virtual       = 0.1003E-09  +/-  0.8842E-09  ( 881.442 %)
accumulated results Virtual ratio = -.2872E+00  +/-  0.3801E-03  (   0.132 %)
accumulated results ABS virtual   = 0.3434E-06  +/-  0.7558E-09  (   0.220 %)
accumulated results Born          = 0.1825E-05  +/-  0.2999E-08  (   0.164 %)
accumulated results V  2          = 0.1003E-09  +/-  0.8842E-09  ( 881.442 %)
accumulated results B  2          = 0.1825E-05  +/-  0.2999E-08  (   0.164 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                            1                                                      2
  2:  0                             1                         2                 3                         4
channel    1 :     1 T    94811    10477  0.1240E-06  0.7858E-07  0.8609E+00
channel    2 :     1 T    96819    11478  0.1258E-06  0.8119E-07  0.8620E+00
channel    3 :     2 T   184182    22019  0.2385E-06  0.1590E-06  0.8340E+00
channel    4 :     2 T   184063    21560  0.2421E-06  0.1658E-06  0.8555E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   7.3039038210713757E-007  +/-   1.5990508770269733E-009
 Final result:   4.8462487490930004E-007  +/-   1.7579293755352532E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    360554
   Stability unknown:                                          0
   Stable PS point:                                       360554
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 360554
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       360554
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17141604    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.38419342    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.78977394    
 Time spent in Integrated_CT :    8.56820679    
 Time spent in Virtuals :    511.171417    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.10888338    
 Time spent in N1body_prefactor :   0.591906667    
 Time spent in Adding_alphas_pdf :    9.63940144    
 Time spent in Reweight_scale :    35.6231041    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.3994541    
 Time spent in Applying_cuts :    4.62931633    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.3657341    
 Time spent in Other_tasks :    20.4299316    
 Time spent in Total :    658.872803    
Time in seconds: 682



LOG file for integration channel /P0_aa_emep/all_G1_1, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39790
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           1
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,   3157
  with seed                   48
 Ranmar initialization seeds       30233       12586
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.282578D+04 0.282578D+04  1.00
 muF1, muF1_reference: 0.282578D+04 0.282578D+04  1.00
 muF2, muF2_reference: 0.282578D+04 0.282578D+04  1.00
 QES,  QES_reference:  0.282578D+04 0.282578D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7958454650718323E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 8: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 2: keeping split order            1
 REAL 6: keeping split order            1
 REAL 3: keeping split order            1
 REAL 7: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3233737146949640E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3093656877020991E-004           OLP:   -2.3093656877021048E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.7997989693450696E-004           OLP:    6.7997989693450674E-004
  FINITE:
           OLP:   -4.1563574994128273E-003
           BORN:    9.6134957140586966E-002
  MOMENTA (Exyzm): 
           1   2727.0187742283970        0.0000000000000000        0.0000000000000000        2727.0187742283970        0.0000000000000000     
           2   2727.0187742283970       -0.0000000000000000       -0.0000000000000000       -2727.0187742283970        0.0000000000000000     
           3   2727.0187742283970        2004.4829085122649        179.47559127164541        1840.2359024358952        0.0000000000000000     
           4   2727.0187742283970       -2004.4829085122649       -179.47559127164541       -1840.2359024358952        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3093656877020991E-004           OLP:   -2.3093656877021048E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.7997989693450696E-004           OLP:    6.7997989693450674E-004
 REAL 5: keeping split order            1
 REAL 9: keeping split order            1
ABS integral  = 0.8642E-06  +/-  0.1758E-08  (   0.203 %)
Integral      = 0.3672E-06  +/-  0.1908E-08  (   0.519 %)
Virtual       = -.6485E-09  +/-  0.9065E-09  ( 139.791 %)
Virtual ratio = -.8725E-01  +/-  0.6283E-03  (   0.720 %)
ABS virtual   = 0.2085E-06  +/-  0.8848E-09  (   0.424 %)
Born          = 0.2523E-06  +/-  0.8791E-09  (   0.348 %)
V  2          = -.6485E-09  +/-  0.9065E-09  ( 139.791 %)
B  2          = 0.2523E-06  +/-  0.8791E-09  (   0.348 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8642E-06  +/-  0.1758E-08  (   0.203 %)
accumulated results Integral      = 0.3672E-06  +/-  0.1908E-08  (   0.519 %)
accumulated results Virtual       = -.6485E-09  +/-  0.9065E-09  ( 139.791 %)
accumulated results Virtual ratio = -.8725E-01  +/-  0.6283E-03  (   0.720 %)
accumulated results ABS virtual   = 0.2085E-06  +/-  0.8848E-09  (   0.424 %)
accumulated results Born          = 0.2523E-06  +/-  0.8791E-09  (   0.348 %)
accumulated results V  2          = -.6485E-09  +/-  0.9065E-09  ( 139.791 %)
accumulated results B  2          = 0.2523E-06  +/-  0.8791E-09  (   0.348 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   163655     9284  0.1266E-06  0.1027E-06  0.4755E+00
channel    2 :     1 T   393894    22852  0.3046E-06  0.8310E-07  0.7707E-01
channel    3 :     2 T   167782     9546  0.1282E-06  0.1024E-06  0.4199E+00
channel    4 :     2 T   394416    23851  0.3049E-06  0.7904E-07  0.7425E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6421035552055490E-007  +/-   1.7584296027560860E-009
 Final result:   3.6722874302401622E-007  +/-   1.9075194567356588E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160395
   Stability unknown:                                          0
   Stable PS point:                                       160395
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160395
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160395
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.86811233    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    10.0723801    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    11.9688377    
 Time spent in Integrated_CT :    22.4468079    
 Time spent in Virtuals :    336.333832    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    24.4788666    
 Time spent in N1body_prefactor :    1.09254837    
 Time spent in Adding_alphas_pdf :    10.8214540    
 Time spent in Reweight_scale :    48.3554535    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    25.9909515    
 Time spent in Applying_cuts :    7.25620985    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    110.212288    
 Time spent in Other_tasks :    36.5652466    
 Time spent in Total :    648.463013    
Time in seconds: 651



LOG file for integration channel /P0_aa_emep/all_G1_2, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39775
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           2
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,   6314
  with seed                   48
 Ranmar initialization seeds       30233       15743
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411307D+04 0.411307D+04  1.00
 muF1, muF1_reference: 0.411307D+04 0.411307D+04  1.00
 muF2, muF2_reference: 0.411307D+04 0.411307D+04  1.00
 QES,  QES_reference:  0.411307D+04 0.411307D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5188278815901677E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 5: keeping split order            1
 REAL 8: keeping split order            1
 REAL 2: keeping split order            1
 REAL 6: keeping split order            1
 REAL 1: keeping split order            1
 REAL 7: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3251728146777245E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3180625241991376E-004           OLP:   -2.3180625241991435E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8254063212530168E-004           OLP:    6.8254063212530168E-004
  FINITE:
           OLP:   -4.1326275423028596E-003
           BORN:    9.6496991619731493E-002
  MOMENTA (Exyzm): 
           1   2719.7523496762619        0.0000000000000000        0.0000000000000000        2719.7523496762619        0.0000000000000000     
           2   2719.7523496762619       -0.0000000000000000       -0.0000000000000000       -2719.7523496762619        0.0000000000000000     
           3   2719.7523496762619       -1219.8673425062964       -1590.4469983760762       -1838.3293653784413        0.0000000000000000     
           4   2719.7523496762619        1219.8673425062964        1590.4469983760762        1838.3293653784413        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3180625241991376E-004           OLP:   -2.3180625241991435E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8254063212530168E-004           OLP:    6.8254063212530168E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8615E-06  +/-  0.1723E-08  (   0.200 %)
Integral      = 0.3656E-06  +/-  0.1874E-08  (   0.512 %)
Virtual       = -.8419E-09  +/-  0.8947E-09  ( 106.274 %)
Virtual ratio = -.8677E-01  +/-  0.6295E-03  (   0.725 %)
ABS virtual   = 0.2071E-06  +/-  0.8730E-09  (   0.422 %)
Born          = 0.2512E-06  +/-  0.8792E-09  (   0.350 %)
V  2          = -.8419E-09  +/-  0.8947E-09  ( 106.274 %)
B  2          = 0.2512E-06  +/-  0.8792E-09  (   0.350 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8615E-06  +/-  0.1723E-08  (   0.200 %)
accumulated results Integral      = 0.3656E-06  +/-  0.1874E-08  (   0.512 %)
accumulated results Virtual       = -.8419E-09  +/-  0.8947E-09  ( 106.274 %)
accumulated results Virtual ratio = -.8677E-01  +/-  0.6295E-03  (   0.725 %)
accumulated results ABS virtual   = 0.2071E-06  +/-  0.8730E-09  (   0.422 %)
accumulated results Born          = 0.2512E-06  +/-  0.8792E-09  (   0.350 %)
accumulated results V  2          = -.8419E-09  +/-  0.8947E-09  ( 106.274 %)
accumulated results B  2          = 0.2512E-06  +/-  0.8792E-09  (   0.350 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   162933     9284  0.1260E-06  0.1023E-06  0.4856E+00
channel    2 :     1 T   395072    22852  0.3056E-06  0.8148E-07  0.7820E-01
channel    3 :     2 T   167279     9546  0.1270E-06  0.1012E-06  0.4280E+00
channel    4 :     2 T   394462    23851  0.3030E-06  0.8063E-07  0.7336E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6148623427881007E-007  +/-   1.7225153922008636E-009
 Final result:   3.6563911567514005E-007  +/-   1.8736214142343411E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    159825
   Stability unknown:                                          0
   Stable PS point:                                       159825
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 159825
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       159825
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.89371252    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    10.0819550    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    11.9712505    
 Time spent in Integrated_CT :    22.4740906    
 Time spent in Virtuals :    335.443939    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    24.3875980    
 Time spent in N1body_prefactor :    1.11277282    
 Time spent in Adding_alphas_pdf :    10.5471592    
 Time spent in Reweight_scale :    47.8092270    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    25.7984695    
 Time spent in Applying_cuts :    7.27044582    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    110.484985    
 Time spent in Other_tasks :    36.7317505    
 Time spent in Total :    647.007385    
Time in seconds: 649



LOG file for integration channel /P0_aa_emep/all_G1_3, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39776
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           3
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,   9471
  with seed                   48
 Ranmar initialization seeds       30233       18900
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411852D+04 0.411852D+04  1.00
 muF1, muF1_reference: 0.411852D+04 0.411852D+04  1.00
 muF2, muF2_reference: 0.411852D+04 0.411852D+04  1.00
 QES,  QES_reference:  0.411852D+04 0.411852D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5178869748604507E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 8: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 4: keeping split order            1
 REAL 6: keeping split order            1
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 5: keeping split order            1
 REAL 7: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2740124283748361E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3927721309937902E-004           OLP:   -2.3927721309937959E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0453846079261597E-004           OLP:    7.0453846079261955E-004
  FINITE:
           OLP:   -4.9343476294874894E-003
           BORN:    9.9607025204036012E-002
  MOMENTA (Exyzm): 
           1   2935.6587589242295        0.0000000000000000        0.0000000000000000        2935.6587589242295        0.0000000000000000     
           2   2935.6587589242295       -0.0000000000000000       -0.0000000000000000       -2935.6587589242295        0.0000000000000000     
           3   2935.6587589242295        1468.9885053477685        1554.1847901160415        2011.1376775786962        0.0000000000000000     
           4   2935.6587589242295       -1468.9885053477685       -1554.1847901160415       -2011.1376775786962        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3927721309937902E-004           OLP:   -2.3927721309937959E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0453846079261597E-004           OLP:    7.0453846079261955E-004
 REAL 9: keeping split order            1
 Error #15 in genps_fks.f  -1.1250376701354980E-006           4
ABS integral  = 0.8604E-06  +/-  0.1790E-08  (   0.208 %)
Integral      = 0.3628E-06  +/-  0.1936E-08  (   0.534 %)
Virtual       = -.3619E-08  +/-  0.8932E-09  (  24.681 %)
Virtual ratio = -.8823E-01  +/-  0.6275E-03  (   0.711 %)
ABS virtual   = 0.2074E-06  +/-  0.8715E-09  (   0.420 %)
Born          = 0.2522E-06  +/-  0.8749E-09  (   0.347 %)
V  2          = -.3619E-08  +/-  0.8932E-09  (  24.681 %)
B  2          = 0.2522E-06  +/-  0.8749E-09  (   0.347 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8604E-06  +/-  0.1790E-08  (   0.208 %)
accumulated results Integral      = 0.3628E-06  +/-  0.1936E-08  (   0.534 %)
accumulated results Virtual       = -.3619E-08  +/-  0.8932E-09  (  24.681 %)
accumulated results Virtual ratio = -.8823E-01  +/-  0.6275E-03  (   0.711 %)
accumulated results ABS virtual   = 0.2074E-06  +/-  0.8715E-09  (   0.420 %)
accumulated results Born          = 0.2522E-06  +/-  0.8749E-09  (   0.347 %)
accumulated results V  2          = -.3619E-08  +/-  0.8932E-09  (  24.681 %)
accumulated results B  2          = 0.2522E-06  +/-  0.8749E-09  (   0.347 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   163291     9284  0.1259E-06  0.1021E-06  0.4927E+00
channel    2 :     1 T   394116    22852  0.3025E-06  0.7907E-07  0.6708E-01
channel    3 :     2 T   167630     9546  0.1271E-06  0.1016E-06  0.4263E+00
channel    4 :     2 T   394708    23851  0.3048E-06  0.8003E-07  0.7884E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6035718328230513E-007  +/-   1.7904873082432581E-009
 Final result:   3.6281821352155524E-007  +/-   1.9363217014010061E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160520
   Stability unknown:                                          0
   Stable PS point:                                       160520
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160520
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160520
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.91227818    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    10.0996304    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    12.0198631    
 Time spent in Integrated_CT :    22.5575562    
 Time spent in Virtuals :    335.903748    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    24.6746101    
 Time spent in N1body_prefactor :    1.11798501    
 Time spent in Adding_alphas_pdf :    10.5811663    
 Time spent in Reweight_scale :    47.8874588    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    25.7818470    
 Time spent in Applying_cuts :    7.25551796    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    110.823288    
 Time spent in Other_tasks :    36.9268188    
 Time spent in Total :    648.541809    
Time in seconds: 651



LOG file for integration channel /P0_aa_emep/all_G1_4, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39758
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           4
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  12628
  with seed                   48
 Ranmar initialization seeds       30233       22057
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.315534D+04 0.315534D+04  1.00
 muF1, muF1_reference: 0.315534D+04 0.315534D+04  1.00
 muF2, muF2_reference: 0.315534D+04 0.315534D+04  1.00
 QES,  QES_reference:  0.315534D+04 0.315534D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7122820921329008E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 8: keeping split order            1
 REAL 6: keeping split order            1
 REAL 2: keeping split order            1
 REAL 4: keeping split order            1
 REAL 7: keeping split order            1
 REAL 3: keeping split order            1
 REAL 5: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3008299589804579E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4159238389777886E-004           OLP:   -2.4159238389777842E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.1135535258790440E-004           OLP:    7.1135535258790342E-004
  FINITE:
           OLP:   -4.5278541983640817E-003
           BORN:   0.10057079134407411     
  MOMENTA (Exyzm): 
           1   2820.0511866400302        0.0000000000000000        0.0000000000000000        2820.0511866400302        0.0000000000000000     
           2   2820.0511866400302       -0.0000000000000000       -0.0000000000000000       -2820.0511866400302        0.0000000000000000     
           3   2820.0511866400302        1206.8001097982808        1653.5263649418212        1939.6321173622041        0.0000000000000000     
           4   2820.0511866400302       -1206.8001097982808       -1653.5263649418212       -1939.6321173622041        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4159238389777886E-004           OLP:   -2.4159238389777842E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.1135535258790440E-004           OLP:    7.1135535258790342E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8615E-06  +/-  0.1695E-08  (   0.197 %)
Integral      = 0.3652E-06  +/-  0.1849E-08  (   0.506 %)
Virtual       = -.1609E-08  +/-  0.8741E-09  (  54.333 %)
Virtual ratio = -.8575E-01  +/-  0.6294E-03  (   0.734 %)
ABS virtual   = 0.2047E-06  +/-  0.8524E-09  (   0.416 %)
Born          = 0.2505E-06  +/-  0.8758E-09  (   0.350 %)
V  2          = -.1609E-08  +/-  0.8741E-09  (  54.333 %)
B  2          = 0.2505E-06  +/-  0.8758E-09  (   0.350 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8615E-06  +/-  0.1695E-08  (   0.197 %)
accumulated results Integral      = 0.3652E-06  +/-  0.1849E-08  (   0.506 %)
accumulated results Virtual       = -.1609E-08  +/-  0.8741E-09  (  54.333 %)
accumulated results Virtual ratio = -.8575E-01  +/-  0.6294E-03  (   0.734 %)
accumulated results ABS virtual   = 0.2047E-06  +/-  0.8524E-09  (   0.416 %)
accumulated results Born          = 0.2505E-06  +/-  0.8758E-09  (   0.350 %)
accumulated results V  2          = -.1609E-08  +/-  0.8741E-09  (  54.333 %)
accumulated results B  2          = 0.2505E-06  +/-  0.8758E-09  (   0.350 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   163084     9284  0.1263E-06  0.1027E-06  0.4837E+00
channel    2 :     1 T   394623    22852  0.3038E-06  0.7890E-07  0.7436E-01
channel    3 :     2 T   167629     9546  0.1273E-06  0.1011E-06  0.4358E+00
channel    4 :     2 T   394406    23851  0.3041E-06  0.8243E-07  0.7497E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6146074820942535E-007  +/-   1.6950878375045961E-009
 Final result:   3.6519643540738664E-007  +/-   1.8485049142449219E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    159679
   Stability unknown:                                          0
   Stable PS point:                                       159679
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 159679
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       159679
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.91812062    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    10.1149645    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    12.0361366    
 Time spent in Integrated_CT :    22.5140686    
 Time spent in Virtuals :    336.242401    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    24.6739769    
 Time spent in N1body_prefactor :    1.09638917    
 Time spent in Adding_alphas_pdf :    10.5094948    
 Time spent in Reweight_scale :    47.5182190    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    25.3748474    
 Time spent in Applying_cuts :    7.21083164    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    111.110931    
 Time spent in Other_tasks :    36.5005493    
 Time spent in Total :    647.820923    
Time in seconds: 651



LOG file for integration channel /P0_aa_emep/all_G1_5, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39760
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           5
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  15785
  with seed                   48
 Ranmar initialization seeds       30233       25214
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.315238D+04 0.315238D+04  1.00
 muF1, muF1_reference: 0.315238D+04 0.315238D+04  1.00
 muF2, muF2_reference: 0.315238D+04 0.315238D+04  1.00
 QES,  QES_reference:  0.315238D+04 0.315238D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7129851732301316E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 8: keeping split order            1
 REAL 5: keeping split order            1
 REAL 1: keeping split order            1
 REAL 7: keeping split order            1
 REAL 6: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2766331435326542E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5754490327745659E-004           OLP:   -2.5754490327745735E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.5832665965028874E-004           OLP:    7.5832665965028983E-004
  FINITE:
           OLP:   -4.9720579750701169E-003
           BORN:   0.10721155324253152     
  MOMENTA (Exyzm): 
           1   2924.1172770177495        0.0000000000000000        0.0000000000000000        2924.1172770177495        0.0000000000000000     
           2   2924.1172770177495       -0.0000000000000000       -0.0000000000000000       -2924.1172770177495        0.0000000000000000     
           3   2924.1172770177495       -2015.2502211088620       -485.08742758678972       -2062.5029899788296        0.0000000000000000     
           4   2924.1172770177495        2015.2502211088620        485.08742758678972        2062.5029899788296        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5754490327745659E-004           OLP:   -2.5754490327745735E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.5832665965028874E-004           OLP:    7.5832665965028983E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8620E-06  +/-  0.2038E-08  (   0.236 %)
Integral      = 0.3620E-06  +/-  0.2168E-08  (   0.599 %)
Virtual       = -.1594E-08  +/-  0.9049E-09  (  56.768 %)
Virtual ratio = -.8806E-01  +/-  0.6307E-03  (   0.716 %)
ABS virtual   = 0.2075E-06  +/-  0.8834E-09  (   0.426 %)
Born          = 0.2513E-06  +/-  0.8788E-09  (   0.350 %)
V  2          = -.1594E-08  +/-  0.9049E-09  (  56.768 %)
B  2          = 0.2513E-06  +/-  0.8788E-09  (   0.350 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8620E-06  +/-  0.2038E-08  (   0.236 %)
accumulated results Integral      = 0.3620E-06  +/-  0.2168E-08  (   0.599 %)
accumulated results Virtual       = -.1594E-08  +/-  0.9049E-09  (  56.768 %)
accumulated results Virtual ratio = -.8806E-01  +/-  0.6307E-03  (   0.716 %)
accumulated results ABS virtual   = 0.2075E-06  +/-  0.8834E-09  (   0.426 %)
accumulated results Born          = 0.2513E-06  +/-  0.8788E-09  (   0.350 %)
accumulated results V  2          = -.1594E-08  +/-  0.9049E-09  (  56.768 %)
accumulated results B  2          = 0.2513E-06  +/-  0.8788E-09  (   0.350 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   162153     9284  0.1258E-06  0.1027E-06  0.4733E+00
channel    2 :     1 T   394735    22852  0.3047E-06  0.7679E-07  0.5695E-01
channel    3 :     2 T   167455     9546  0.1271E-06  0.1013E-06  0.4286E+00
channel    4 :     2 T   395403    23851  0.3043E-06  0.8116E-07  0.7548E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6196437894966351E-007  +/-   2.0376370846310826E-009
 Final result:   3.6196303134015973E-007  +/-   2.1675994662462062E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    159875
   Stability unknown:                                          0
   Stable PS point:                                       159875
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 159875
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       159875
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.83434486    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.98562241    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    11.8228035    
 Time spent in Integrated_CT :    22.1204529    
 Time spent in Virtuals :    332.682434    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    24.3516083    
 Time spent in N1body_prefactor :    1.12092340    
 Time spent in Adding_alphas_pdf :    10.3499498    
 Time spent in Reweight_scale :    47.3021202    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    25.1118164    
 Time spent in Applying_cuts :    7.04174185    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    109.192818    
 Time spent in Other_tasks :    35.7532349    
 Time spent in Total :    639.669861    
Time in seconds: 642



LOG file for integration channel /P0_aa_emep/all_G1_6, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39759
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           6
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  18942
  with seed                   48
 Ranmar initialization seeds       30233       28371
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.405181D+04 0.405181D+04  1.00
 muF1, muF1_reference: 0.405181D+04 0.405181D+04  1.00
 muF2, muF2_reference: 0.405181D+04 0.405181D+04  1.00
 QES,  QES_reference:  0.405181D+04 0.405181D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5295189730707118E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 8: keeping split order            1
 REAL 6: keeping split order            1
 REAL 7: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 5: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2763850809814859E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4824450626157048E-004           OLP:   -2.4824450626157097E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.3094215732573539E-004           OLP:    7.3094215732573626E-004
  FINITE:
           OLP:   -4.9390710514971101E-003
           BORN:   0.10333995649510472     
  MOMENTA (Exyzm): 
           1   2925.2074309974505        0.0000000000000000        0.0000000000000000        2925.2074309974505        0.0000000000000000     
           2   2925.2074309974505       -0.0000000000000000       -0.0000000000000000       -2925.2074309974505        0.0000000000000000     
           3   2925.2074309974505        1689.7129145802724        1250.6433121959751        2034.1091628334075        0.0000000000000000     
           4   2925.2074309974505       -1689.7129145802724       -1250.6433121959751       -2034.1091628334075        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4824450626157048E-004           OLP:   -2.4824450626157097E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.3094215732573539E-004           OLP:    7.3094215732573626E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8660E-06  +/-  0.1883E-08  (   0.217 %)
Integral      = 0.3629E-06  +/-  0.2025E-08  (   0.558 %)
Virtual       = -.2110E-08  +/-  0.9125E-09  (  43.252 %)
Virtual ratio = -.8745E-01  +/-  0.6291E-03  (   0.719 %)
ABS virtual   = 0.2089E-06  +/-  0.8909E-09  (   0.426 %)
Born          = 0.2532E-06  +/-  0.8949E-09  (   0.353 %)
V  2          = -.2110E-08  +/-  0.9125E-09  (  43.252 %)
B  2          = 0.2532E-06  +/-  0.8949E-09  (   0.353 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8660E-06  +/-  0.1883E-08  (   0.217 %)
accumulated results Integral      = 0.3629E-06  +/-  0.2025E-08  (   0.558 %)
accumulated results Virtual       = -.2110E-08  +/-  0.9125E-09  (  43.252 %)
accumulated results Virtual ratio = -.8745E-01  +/-  0.6291E-03  (   0.719 %)
accumulated results ABS virtual   = 0.2089E-06  +/-  0.8909E-09  (   0.426 %)
accumulated results Born          = 0.2532E-06  +/-  0.8949E-09  (   0.353 %)
accumulated results V  2          = -.2110E-08  +/-  0.9125E-09  (  43.252 %)
accumulated results B  2          = 0.2532E-06  +/-  0.8949E-09  (   0.353 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6    7                                8
channel    1 :     1 T   162667     9284  0.1260E-06  0.1024E-06  0.4747E+00
channel    2 :     1 T   395573    22852  0.3047E-06  0.8035E-07  0.7313E-01
channel    3 :     2 T   167047     9546  0.1282E-06  0.1021E-06  0.4271E+00
channel    4 :     2 T   394453    23851  0.3071E-06  0.7807E-07  0.6843E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6604709005664880E-007  +/-   1.8833530814513295E-009
 Final result:   3.6292430210093240E-007  +/-   2.0246529608892630E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160488
   Stability unknown:                                          0
   Stable PS point:                                       160488
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160488
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160488
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.85723639    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.97897625    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    11.8275642    
 Time spent in Integrated_CT :    22.1305237    
 Time spent in Virtuals :    333.605133    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    24.3966331    
 Time spent in N1body_prefactor :    1.10394216    
 Time spent in Adding_alphas_pdf :    10.4886589    
 Time spent in Reweight_scale :    47.6398468    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    25.6129112    
 Time spent in Applying_cuts :    6.98139477    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    108.814362    
 Time spent in Other_tasks :    35.9953613    
 Time spent in Total :    641.432495    
Time in seconds: 644



LOG file for integration channel /P0_aa_emep/all_G1_7, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39766
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           7
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  22099
  with seed                   48
 Ranmar initialization seeds       30233        1447
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.345890D+04 0.345890D+04  1.00
 muF1, muF1_reference: 0.345890D+04 0.345890D+04  1.00
 muF2, muF2_reference: 0.345890D+04 0.345890D+04  1.00
 QES,  QES_reference:  0.345890D+04 0.345890D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6441027497418282E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 6: keeping split order            1
 REAL 8: keeping split order            1
 REAL 1: keeping split order            1
 REAL 5: keeping split order            1
 REAL 4: keeping split order            1
 REAL 2: keeping split order            1
 REAL 7: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3163848689621114E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4077644904351450E-004           OLP:   -2.4077644904351320E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0895287773923719E-004           OLP:    7.0895287773923882E-004
  FINITE:
           OLP:   -4.2873090793135778E-003
           BORN:   0.10023113157229381     
  MOMENTA (Exyzm): 
           1   2755.4655234835686        0.0000000000000000        0.0000000000000000        2755.4655234835686        0.0000000000000000     
           2   2755.4655234835686       -0.0000000000000000       -0.0000000000000000       -2755.4655234835686        0.0000000000000000     
           3   2755.4655234835686       -1631.6961663038903       -1161.1689878752870       -1892.5761420805361        0.0000000000000000     
           4   2755.4655234835686        1631.6961663038903        1161.1689878752870        1892.5761420805361        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4077644904351450E-004           OLP:   -2.4077644904351320E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0895287773923719E-004           OLP:    7.0895287773923882E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8620E-06  +/-  0.1794E-08  (   0.208 %)
Integral      = 0.3627E-06  +/-  0.1940E-08  (   0.535 %)
Virtual       = -.2482E-08  +/-  0.8945E-09  (  36.038 %)
Virtual ratio = -.8731E-01  +/-  0.6291E-03  (   0.721 %)
ABS virtual   = 0.2074E-06  +/-  0.8728E-09  (   0.421 %)
Born          = 0.2521E-06  +/-  0.8706E-09  (   0.345 %)
V  2          = -.2482E-08  +/-  0.8945E-09  (  36.038 %)
B  2          = 0.2521E-06  +/-  0.8706E-09  (   0.345 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8620E-06  +/-  0.1794E-08  (   0.208 %)
accumulated results Integral      = 0.3627E-06  +/-  0.1940E-08  (   0.535 %)
accumulated results Virtual       = -.2482E-08  +/-  0.8945E-09  (  36.038 %)
accumulated results Virtual ratio = -.8731E-01  +/-  0.6291E-03  (   0.721 %)
accumulated results ABS virtual   = 0.2074E-06  +/-  0.8728E-09  (   0.421 %)
accumulated results Born          = 0.2521E-06  +/-  0.8706E-09  (   0.345 %)
accumulated results V  2          = -.2482E-08  +/-  0.8945E-09  (  36.038 %)
accumulated results B  2          = 0.2521E-06  +/-  0.8706E-09  (   0.345 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   163482     9284  0.1263E-06  0.1027E-06  0.4759E+00
channel    2 :     1 T   393177    22852  0.3029E-06  0.8058E-07  0.7653E-01
channel    3 :     2 T   168000     9546  0.1274E-06  0.1016E-06  0.4341E+00
channel    4 :     2 T   395087    23851  0.3054E-06  0.7776E-07  0.6897E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6201838175432502E-007  +/-   1.7936752185974275E-009
 Final result:   3.6265715603180196E-007  +/-   1.9399554897131110E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160426
   Stability unknown:                                          0
   Stable PS point:                                       160426
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160426
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160426
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.61155319    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.80552292    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    10.6437654    
 Time spent in Integrated_CT :    20.0677490    
 Time spent in Virtuals :    288.851746    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    22.0815392    
 Time spent in N1body_prefactor :   0.987131596    
 Time spent in Adding_alphas_pdf :    9.17091560    
 Time spent in Reweight_scale :    42.4670486    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    23.6196728    
 Time spent in Applying_cuts :    6.68829393    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    99.1427002    
 Time spent in Other_tasks :    32.5344238    
 Time spent in Total :    567.672058    
Time in seconds: 571



LOG file for integration channel /P0_aa_emep/all_G1_8, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39763
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           8
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  25256
  with seed                   48
 Ranmar initialization seeds       30233        4604
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.413154D+04 0.413154D+04  1.00
 muF1, muF1_reference: 0.413154D+04 0.413154D+04  1.00
 muF2, muF2_reference: 0.413154D+04 0.413154D+04  1.00
 QES,  QES_reference:  0.413154D+04 0.413154D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5156415218844849E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 8: keeping split order            1
 REAL 3: keeping split order            1
 REAL 6: keeping split order            1
 REAL 1: keeping split order            1
 REAL 7: keeping split order            1
 REAL 5: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2677717494610480E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5597273610145890E-004           OLP:   -2.5597273610146053E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.5369750074318466E-004           OLP:    7.5369750074318011E-004
  FINITE:
           OLP:   -5.1135580788769560E-003
           BORN:   0.10655708684560171     
  MOMENTA (Exyzm): 
           1   2963.3596366999932        0.0000000000000000        0.0000000000000000        2963.3596366999932        0.0000000000000000     
           2   2963.3596366999932       -0.0000000000000000       -0.0000000000000000       -2963.3596366999932        0.0000000000000000     
           3   2963.3596366999932        1544.9893587518682        1430.3523390951725        2085.3298069636794        0.0000000000000000     
           4   2963.3596366999932       -1544.9893587518682       -1430.3523390951725       -2085.3298069636794        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5597273610145890E-004           OLP:   -2.5597273610146053E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.5369750074318466E-004           OLP:    7.5369750074318011E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8647E-06  +/-  0.1701E-08  (   0.197 %)
Integral      = 0.3670E-06  +/-  0.1855E-08  (   0.505 %)
Virtual       = -.2332E-08  +/-  0.8873E-09  (  38.056 %)
Virtual ratio = -.8670E-01  +/-  0.6298E-03  (   0.726 %)
ABS virtual   = 0.2059E-06  +/-  0.8657E-09  (   0.420 %)
Born          = 0.2511E-06  +/-  0.8813E-09  (   0.351 %)
V  2          = -.2332E-08  +/-  0.8873E-09  (  38.056 %)
B  2          = 0.2511E-06  +/-  0.8813E-09  (   0.351 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8647E-06  +/-  0.1701E-08  (   0.197 %)
accumulated results Integral      = 0.3670E-06  +/-  0.1855E-08  (   0.505 %)
accumulated results Virtual       = -.2332E-08  +/-  0.8873E-09  (  38.056 %)
accumulated results Virtual ratio = -.8670E-01  +/-  0.6298E-03  (   0.726 %)
accumulated results ABS virtual   = 0.2059E-06  +/-  0.8657E-09  (   0.420 %)
accumulated results Born          = 0.2511E-06  +/-  0.8813E-09  (   0.351 %)
accumulated results V  2          = -.2332E-08  +/-  0.8873E-09  (  38.056 %)
accumulated results B  2          = 0.2511E-06  +/-  0.8813E-09  (   0.351 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   161494     9284  0.1253E-06  0.1014E-06  0.4625E+00
channel    2 :     1 T   395220    22852  0.3060E-06  0.8276E-07  0.7648E-01
channel    3 :     2 T   168468     9546  0.1291E-06  0.1030E-06  0.4214E+00
channel    4 :     2 T   394570    23851  0.3043E-06  0.7991E-07  0.7672E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6468314474935216E-007  +/-   1.7011962766458823E-009
 Final result:   3.6703969117823588E-007  +/-   1.8551222445014285E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    159955
   Stability unknown:                                          0
   Stable PS point:                                       159955
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 159955
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       159955
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.60413623    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.84533691    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    10.7255058    
 Time spent in Integrated_CT :    19.9049988    
 Time spent in Virtuals :    288.807739    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    22.0225620    
 Time spent in N1body_prefactor :   0.987251282    
 Time spent in Adding_alphas_pdf :    9.40117741    
 Time spent in Reweight_scale :    43.1309853    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    24.2982330    
 Time spent in Applying_cuts :    6.76477289    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    99.2116089    
 Time spent in Other_tasks :    32.5314941    
 Time spent in Total :    569.235779    
Time in seconds: 572



LOG file for integration channel /P0_aa_emep/all_G1_9, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39762
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           9
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  28413
  with seed                   48
 Ranmar initialization seeds       30233        7761
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.380405D+04 0.380405D+04  1.00
 muF1, muF1_reference: 0.380405D+04 0.380405D+04  1.00
 muF2, muF2_reference: 0.380405D+04 0.380405D+04  1.00
 QES,  QES_reference:  0.380405D+04 0.380405D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5747989366887314E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 8: keeping split order            1
 REAL 2: keeping split order            1
 REAL 6: keeping split order            1
 REAL 3: keeping split order            1
 REAL 7: keeping split order            1
 REAL 1: keeping split order            1
 REAL 5: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3054275337130922E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3763684158198051E-004           OLP:   -2.3763684158198051E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.9970847799138709E-004           OLP:    6.9970847799138958E-004
  FINITE:
           OLP:   -4.4440611857975935E-003
           BORN:    9.8924166502360841E-002
  MOMENTA (Exyzm): 
           1   2800.7766226673994        0.0000000000000000        0.0000000000000000        2800.7766226673994        0.0000000000000000     
           2   2800.7766226673994       -0.0000000000000000       -0.0000000000000000       -2800.7766226673994        0.0000000000000000     
           3   2800.7766226673994        1618.1994043806696        1251.1248813446507        1913.2346717072069        0.0000000000000000     
           4   2800.7766226673994       -1618.1994043806696       -1251.1248813446507       -1913.2346717072069        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3763684158198051E-004           OLP:   -2.3763684158198051E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.9970847799138709E-004           OLP:    6.9970847799138958E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8623E-06  +/-  0.1760E-08  (   0.204 %)
Integral      = 0.3646E-06  +/-  0.1908E-08  (   0.523 %)
Virtual       = -.1953E-09  +/-  0.9052E-09  ( 463.548 %)
Virtual ratio = -.8593E-01  +/-  0.6292E-03  (   0.732 %)
ABS virtual   = 0.2078E-06  +/-  0.8836E-09  (   0.425 %)
Born          = 0.2518E-06  +/-  0.8848E-09  (   0.351 %)
V  2          = -.1953E-09  +/-  0.9052E-09  ( 463.548 %)
B  2          = 0.2518E-06  +/-  0.8848E-09  (   0.351 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8623E-06  +/-  0.1760E-08  (   0.204 %)
accumulated results Integral      = 0.3646E-06  +/-  0.1908E-08  (   0.523 %)
accumulated results Virtual       = -.1953E-09  +/-  0.9052E-09  ( 463.548 %)
accumulated results Virtual ratio = -.8593E-01  +/-  0.6292E-03  (   0.732 %)
accumulated results ABS virtual   = 0.2078E-06  +/-  0.8836E-09  (   0.425 %)
accumulated results Born          = 0.2518E-06  +/-  0.8848E-09  (   0.351 %)
accumulated results V  2          = -.1953E-09  +/-  0.9052E-09  ( 463.548 %)
accumulated results B  2          = 0.2518E-06  +/-  0.8848E-09  (   0.351 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   162569     9284  0.1254E-06  0.1016E-06  0.4751E+00
channel    2 :     1 T   394359    22852  0.3033E-06  0.7968E-07  0.7899E-01
channel    3 :     2 T   167706     9546  0.1284E-06  0.1015E-06  0.3593E+00
channel    4 :     2 T   395115    23851  0.3052E-06  0.8177E-07  0.7576E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6226919925281155E-007  +/-   1.7596759273847923E-009
 Final result:   3.6459795468253360E-007  +/-   1.9083347708659387E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160019
   Stability unknown:                                          0
   Stable PS point:                                       160019
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160019
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160019
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.53940248    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.69273949    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    10.6243706    
 Time spent in Integrated_CT :    19.8233032    
 Time spent in Virtuals :    284.364807    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    21.6394997    
 Time spent in N1body_prefactor :   0.971727550    
 Time spent in Adding_alphas_pdf :    8.92672539    
 Time spent in Reweight_scale :    42.2883110    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.3598824    
 Time spent in Applying_cuts :    6.34050035    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    97.3762970    
 Time spent in Other_tasks :    30.6383667    
 Time spent in Total :    556.585938    
Time in seconds: 559



LOG file for integration channel /P0_aa_emep/all_G1_10, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39761
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          10
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  31570
  with seed                   48
 Ranmar initialization seeds       30233       10918
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.205556D+04 0.205556D+04  1.00
 muF1, muF1_reference: 0.205556D+04 0.205556D+04  1.00
 muF2, muF2_reference: 0.205556D+04 0.205556D+04  1.00
 QES,  QES_reference:  0.205556D+04 0.205556D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   8.0474490701878371E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 8: keeping split order            1
 REAL 1: keeping split order            1
 REAL 6: keeping split order            1
 REAL 3: keeping split order            1
 REAL 5: keeping split order            1
 REAL 7: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 F
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 F
 Charge-linked born are used
 Color-linked born are not used
 REAL 9: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.3222180518668217E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3132360223323975E-004           OLP:   -2.3132360223324078E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8111949546453929E-004           OLP:    6.8111949546453994E-004
  FINITE:
           OLP:   -4.1743300067940883E-003
           BORN:    9.6296072574052025E-002
  MOMENTA (Exyzm): 
           1   2731.6985553016630        0.0000000000000000        0.0000000000000000        2731.6985553016630        0.0000000000000000     
           2   2731.6985553016630       -0.0000000000000000       -0.0000000000000000       -2731.6985553016630        0.0000000000000000     
           3   2731.6985553016630       -2014.3117260407762       -40.913269120604184       -1844.7361252443902        0.0000000000000000     
           4   2731.6985553016630        2014.3117260407762        40.913269120604184        1844.7361252443902        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3132360223323975E-004           OLP:   -2.3132360223324078E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8111949546453929E-004           OLP:    6.8111949546453994E-004
ABS integral  = 0.8653E-06  +/-  0.1807E-08  (   0.209 %)
Integral      = 0.3656E-06  +/-  0.1953E-08  (   0.534 %)
Virtual       = -.8438E-09  +/-  0.9049E-09  ( 107.240 %)
Virtual ratio = -.8663E-01  +/-  0.6290E-03  (   0.726 %)
ABS virtual   = 0.2072E-06  +/-  0.8835E-09  (   0.426 %)
Born          = 0.2517E-06  +/-  0.8971E-09  (   0.356 %)
V  2          = -.8438E-09  +/-  0.9049E-09  ( 107.240 %)
B  2          = 0.2517E-06  +/-  0.8971E-09  (   0.356 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8653E-06  +/-  0.1807E-08  (   0.209 %)
accumulated results Integral      = 0.3656E-06  +/-  0.1953E-08  (   0.534 %)
accumulated results Virtual       = -.8438E-09  +/-  0.9049E-09  ( 107.240 %)
accumulated results Virtual ratio = -.8663E-01  +/-  0.6290E-03  (   0.726 %)
accumulated results ABS virtual   = 0.2072E-06  +/-  0.8835E-09  (   0.426 %)
accumulated results Born          = 0.2517E-06  +/-  0.8971E-09  (   0.356 %)
accumulated results V  2          = -.8438E-09  +/-  0.9049E-09  ( 107.240 %)
accumulated results B  2          = 0.2517E-06  +/-  0.8971E-09  (   0.356 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6    7                                8
channel    1 :     1 T   162130     9284  0.1259E-06  0.1025E-06  0.4828E+00
channel    2 :     1 T   394817    22852  0.3059E-06  0.8161E-07  0.7578E-01
channel    3 :     2 T   167872     9546  0.1287E-06  0.1025E-06  0.3949E+00
channel    4 :     2 T   394927    23851  0.3048E-06  0.7895E-07  0.7170E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6532894075575154E-007  +/-   1.8069113684375003E-009
 Final result:   3.6559341926650335E-007  +/-   1.9530188168091777E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    159648
   Stability unknown:                                          0
   Stable PS point:                                       159648
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 159648
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       159648
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.28644967    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.80471992    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    10.5564804    
 Time spent in Integrated_CT :    16.6683960    
 Time spent in Virtuals :    286.237946    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    18.5384674    
 Time spent in N1body_prefactor :   0.996166468    
 Time spent in Adding_alphas_pdf :    8.98886871    
 Time spent in Reweight_scale :    42.7059250    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    23.2104034    
 Time spent in Applying_cuts :    6.51311398    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    95.1670074    
 Time spent in Other_tasks :    31.2181396    
 Time spent in Total :    551.892090    
Time in seconds: 554



LOG file for integration channel /P0_aa_emep/all_G1_11, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39765
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          11
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  34727
  with seed                   48
 Ranmar initialization seeds       30233       14075
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411866D+04 0.411866D+04  1.00
 muF1, muF1_reference: 0.411866D+04 0.411866D+04  1.00
 muF2, muF2_reference: 0.411866D+04 0.411866D+04  1.00
 QES,  QES_reference:  0.411866D+04 0.411866D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5178620753174302E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 8: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 7: keeping split order            1
 REAL 2: keeping split order            1
 REAL 6: keeping split order            1
 REAL 5: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3231246407840969E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3381101268696140E-004           OLP:   -2.3381101268696189E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8844353735605316E-004           OLP:    6.8844353735605414E-004
  FINITE:
           OLP:   -4.1681105572720280E-003
           BORN:    9.7331539146682702E-002
  MOMENTA (Exyzm): 
           1   2728.0265782882193        0.0000000000000000        0.0000000000000000        2728.0265782882193        0.0000000000000000     
           2   2728.0265782882193       -0.0000000000000000       -0.0000000000000000       -2728.0265782882193        0.0000000000000000     
           3   2728.0265782882193        1867.5807659590560        727.26724013612125        1850.7710436170933        0.0000000000000000     
           4   2728.0265782882193       -1867.5807659590560       -727.26724013612125       -1850.7710436170933        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3381101268696140E-004           OLP:   -2.3381101268696189E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8844353735605316E-004           OLP:    6.8844353735605414E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8643E-06  +/-  0.1836E-08  (   0.212 %)
Integral      = 0.3579E-06  +/-  0.1981E-08  (   0.554 %)
Virtual       = -.4425E-08  +/-  0.8994E-09  (  20.326 %)
Virtual ratio = -.8743E-01  +/-  0.6273E-03  (   0.718 %)
ABS virtual   = 0.2081E-06  +/-  0.8777E-09  (   0.422 %)
Born          = 0.2532E-06  +/-  0.8900E-09  (   0.351 %)
V  2          = -.4425E-08  +/-  0.8994E-09  (  20.326 %)
B  2          = 0.2532E-06  +/-  0.8900E-09  (   0.351 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8643E-06  +/-  0.1836E-08  (   0.212 %)
accumulated results Integral      = 0.3579E-06  +/-  0.1981E-08  (   0.554 %)
accumulated results Virtual       = -.4425E-08  +/-  0.8994E-09  (  20.326 %)
accumulated results Virtual ratio = -.8743E-01  +/-  0.6273E-03  (   0.718 %)
accumulated results ABS virtual   = 0.2081E-06  +/-  0.8777E-09  (   0.422 %)
accumulated results Born          = 0.2532E-06  +/-  0.8900E-09  (   0.351 %)
accumulated results V  2          = -.4425E-08  +/-  0.8994E-09  (  20.326 %)
accumulated results B  2          = 0.2532E-06  +/-  0.8900E-09  (   0.351 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6    7                                8
channel    1 :     1 T   162621     9284  0.1251E-06  0.1015E-06  0.4938E+00
channel    2 :     1 T   394313    22852  0.3057E-06  0.7807E-07  0.6997E-01
channel    3 :     2 T   168816     9546  0.1292E-06  0.1024E-06  0.4211E+00
channel    4 :     2 T   393994    23851  0.3043E-06  0.7589E-07  0.7251E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6434761865137381E-007  +/-   1.8360623008944665E-009
 Final result:   3.5788324902920094E-007  +/-   1.9808948314456532E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    161069
   Stability unknown:                                          0
   Stable PS point:                                       161069
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 161069
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       161069
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.34774780    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.76314163    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    10.5852032    
 Time spent in Integrated_CT :    17.5221863    
 Time spent in Virtuals :    288.409851    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    19.4741020    
 Time spent in N1body_prefactor :   0.983738482    
 Time spent in Adding_alphas_pdf :    8.97730637    
 Time spent in Reweight_scale :    42.7198029    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.7719269    
 Time spent in Applying_cuts :    6.44089842    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    96.2646637    
 Time spent in Other_tasks :    31.0479736    
 Time spent in Total :    556.308533    
Time in seconds: 559



LOG file for integration channel /P0_aa_emep/all_G1_12, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39764
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          12
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  37884
  with seed                   48
 Ranmar initialization seeds       30233       17232
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.351694D+04 0.351694D+04  1.00
 muF1, muF1_reference: 0.351694D+04 0.351694D+04  1.00
 muF2, muF2_reference: 0.351694D+04 0.351694D+04  1.00
 QES,  QES_reference:  0.351694D+04 0.351694D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6318841266183407E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 6: keeping split order            1
 REAL 3: keeping split order            1
 REAL 8: keeping split order            1
 REAL 2: keeping split order            1
 REAL 7: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 REAL 9: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.3167078683013531E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3202235623815499E-004           OLP:   -2.3202235623815448E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8317693781234532E-004           OLP:    6.8317693781234511E-004
  FINITE:
           OLP:   -4.2571371632924571E-003
           BORN:    9.6586951955659112E-002
  MOMENTA (Exyzm): 
           1   2754.1430850741667        0.0000000000000000        0.0000000000000000        2754.1430850741667        0.0000000000000000     
           2   2754.1430850741667       -0.0000000000000000       -0.0000000000000000       -2754.1430850741667        0.0000000000000000     
           3   2754.1430850741667        2013.9036127632189        247.46765687595123        1862.3254630599426        0.0000000000000000     
           4   2754.1430850741667       -2013.9036127632189       -247.46765687595123       -1862.3254630599426        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3202235623815499E-004           OLP:   -2.3202235623815448E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8317693781234532E-004           OLP:    6.8317693781234511E-004
 REAL 5: keeping split order            1
ABS integral  = 0.8616E-06  +/-  0.1710E-08  (   0.198 %)
Integral      = 0.3692E-06  +/-  0.1861E-08  (   0.504 %)
Virtual       = -.1617E-09  +/-  0.8963E-09  ( 554.385 %)
Virtual ratio = -.8666E-01  +/-  0.6307E-03  (   0.728 %)
ABS virtual   = 0.2063E-06  +/-  0.8748E-09  (   0.424 %)
Born          = 0.2526E-06  +/-  0.9030E-09  (   0.358 %)
V  2          = -.1617E-09  +/-  0.8963E-09  ( 554.385 %)
B  2          = 0.2526E-06  +/-  0.9030E-09  (   0.358 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8616E-06  +/-  0.1710E-08  (   0.198 %)
accumulated results Integral      = 0.3692E-06  +/-  0.1861E-08  (   0.504 %)
accumulated results Virtual       = -.1617E-09  +/-  0.8963E-09  ( 554.385 %)
accumulated results Virtual ratio = -.8666E-01  +/-  0.6307E-03  (   0.728 %)
accumulated results ABS virtual   = 0.2063E-06  +/-  0.8748E-09  (   0.424 %)
accumulated results Born          = 0.2526E-06  +/-  0.9030E-09  (   0.358 %)
accumulated results V  2          = -.1617E-09  +/-  0.8963E-09  ( 554.385 %)
accumulated results B  2          = 0.2526E-06  +/-  0.9030E-09  (   0.358 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   162305     9284  0.1262E-06  0.1030E-06  0.4957E+00
channel    2 :     1 T   394572    22852  0.3045E-06  0.8077E-07  0.7333E-01
channel    3 :     2 T   167730     9546  0.1281E-06  0.1020E-06  0.4415E+00
channel    4 :     2 T   395133    23851  0.3029E-06  0.8346E-07  0.7896E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6162814319691214E-007  +/-   1.7098447842352520E-009
 Final result:   3.6920451082195087E-007  +/-   1.8614095901151122E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160015
   Stability unknown:                                          0
   Stable PS point:                                       160015
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160015
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160015
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.57452059    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.74267864    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    10.6635990    
 Time spent in Integrated_CT :    19.9927063    
 Time spent in Virtuals :    285.556152    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    21.9074211    
 Time spent in N1body_prefactor :   0.982219815    
 Time spent in Adding_alphas_pdf :    8.97152328    
 Time spent in Reweight_scale :    42.2327194    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.5768852    
 Time spent in Applying_cuts :    6.29922438    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    98.3843842    
 Time spent in Other_tasks :    30.8635254    
 Time spent in Total :    559.747559    
Time in seconds: 562



LOG file for integration channel /P0_aa_emep/all_G1_13, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       39774
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          13
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  41041
  with seed                   48
 Ranmar initialization seeds       30233       20389
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.288760D+04 0.288760D+04  1.00
 muF1, muF1_reference: 0.288760D+04 0.288760D+04  1.00
 muF2, muF2_reference: 0.288760D+04 0.288760D+04  1.00
 QES,  QES_reference:  0.288760D+04 0.288760D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7793109247157891E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 8: keeping split order            1
 REAL 7: keeping split order            1
 REAL 6: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 REAL 5: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3205405342725030E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3175304630934692E-004           OLP:   -2.3175304630934694E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8238396968863272E-004           OLP:    6.8238396968863251E-004
  FINITE:
           OLP:   -4.2001164047972220E-003
           BORN:    9.6474842822829393E-002
  MOMENTA (Exyzm): 
           1   2738.5085135635445        0.0000000000000000        0.0000000000000000        2738.5085135635445        0.0000000000000000     
           2   2738.5085135635445       -0.0000000000000000       -0.0000000000000000       -2738.5085135635445        0.0000000000000000     
           3   2738.5085135635445        1929.7990988480008        591.40389444917469        1850.8229927726229        0.0000000000000000     
           4   2738.5085135635445       -1929.7990988480008       -591.40389444917469       -1850.8229927726229        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3175304630934692E-004           OLP:   -2.3175304630934694E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8238396968863272E-004           OLP:    6.8238396968863251E-004
 REAL 9: keeping split order            1
 REAL 1: keeping split order            1
ABS integral  = 0.8599E-06  +/-  0.1691E-08  (   0.197 %)
Integral      = 0.3624E-06  +/-  0.1845E-08  (   0.509 %)
Virtual       = -.2897E-08  +/-  0.9035E-09  (  31.186 %)
Virtual ratio = -.8733E-01  +/-  0.6290E-03  (   0.720 %)
ABS virtual   = 0.2066E-06  +/-  0.8822E-09  (   0.427 %)
Born          = 0.2512E-06  +/-  0.8825E-09  (   0.351 %)
V  2          = -.2897E-08  +/-  0.9035E-09  (  31.186 %)
B  2          = 0.2512E-06  +/-  0.8825E-09  (   0.351 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8599E-06  +/-  0.1691E-08  (   0.197 %)
accumulated results Integral      = 0.3624E-06  +/-  0.1845E-08  (   0.509 %)
accumulated results Virtual       = -.2897E-08  +/-  0.9035E-09  (  31.186 %)
accumulated results Virtual ratio = -.8733E-01  +/-  0.6290E-03  (   0.720 %)
accumulated results ABS virtual   = 0.2066E-06  +/-  0.8822E-09  (   0.427 %)
accumulated results Born          = 0.2512E-06  +/-  0.8825E-09  (   0.351 %)
accumulated results V  2          = -.2897E-08  +/-  0.9035E-09  (  31.186 %)
accumulated results B  2          = 0.2512E-06  +/-  0.8825E-09  (   0.351 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6    7                                8
channel    1 :     1 T   162540     9284  0.1256E-06  0.1016E-06  0.4655E+00
channel    2 :     1 T   394605    22852  0.3027E-06  0.7999E-07  0.7931E-01
channel    3 :     2 T   167582     9546  0.1275E-06  0.1021E-06  0.4332E+00
channel    4 :     2 T   395011    23851  0.3040E-06  0.7864E-07  0.7783E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5989545194312654E-007  +/-   1.6910526667352976E-009
 Final result:   3.6240021366101662E-007  +/-   1.8446456087748623E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160016
   Stability unknown:                                          0
   Stable PS point:                                       160016
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160016
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160016
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.21666741    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.43146324    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    10.0281801    
 Time spent in Integrated_CT :    15.9010925    
 Time spent in Virtuals :    277.313446    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    18.1618958    
 Time spent in N1body_prefactor :   0.908695519    
 Time spent in Adding_alphas_pdf :    8.48140812    
 Time spent in Reweight_scale :    42.0874023    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.7356205    
 Time spent in Applying_cuts :    5.82426643    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    92.0449829    
 Time spent in Other_tasks :    28.3222046    
 Time spent in Total :    530.457336    
Time in seconds: 532



LOG file for integration channel /P0_aa_emep/all_G1_14, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6581
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          14
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  44198
  with seed                   48
 Ranmar initialization seeds       30233       23546
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.203396D+04 0.203396D+04  1.00
 muF1, muF1_reference: 0.203396D+04 0.203396D+04  1.00
 muF2, muF2_reference: 0.203396D+04 0.203396D+04  1.00
 QES,  QES_reference:  0.203396D+04 0.203396D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   8.0560884993558970E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 8: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 6: keeping split order            1
 REAL 3: keeping split order            1
 REAL 5: keeping split order            1
 REAL 2: keeping split order            1
 REAL 7: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 F
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 F
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3227878187759735E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3065854535834649E-004           OLP:   -2.3065854535834652E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.7916127244402043E-004           OLP:    6.7916127244402151E-004
  FINITE:
           OLP:   -4.1640583249783385E-003
           BORN:    9.6019220733287322E-002
  MOMENTA (Exyzm): 
           1   2729.3901319124579        0.0000000000000000        0.0000000000000000        2729.3901319124579        0.0000000000000000     
           2   2729.3901319124579       -0.0000000000000000       -0.0000000000000000       -2729.3901319124579        0.0000000000000000     
           3   2729.3901319124579        1354.1453369638944        1492.3330852174918        1840.8701370073034        0.0000000000000000     
           4   2729.3901319124579       -1354.1453369638944       -1492.3330852174918       -1840.8701370073034        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3065854535834649E-004           OLP:   -2.3065854535834652E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.7916127244402043E-004           OLP:    6.7916127244402151E-004
 REAL 9: keeping split order            1
 REAL 1: keeping split order            1
ABS integral  = 0.8671E-06  +/-  0.1829E-08  (   0.211 %)
Integral      = 0.3631E-06  +/-  0.1975E-08  (   0.544 %)
Virtual       = -.6618E-09  +/-  0.9049E-09  ( 136.738 %)
Virtual ratio = -.8643E-01  +/-  0.6298E-03  (   0.729 %)
ABS virtual   = 0.2077E-06  +/-  0.8834E-09  (   0.425 %)
Born          = 0.2531E-06  +/-  0.9108E-09  (   0.360 %)
V  2          = -.6618E-09  +/-  0.9049E-09  ( 136.738 %)
B  2          = 0.2531E-06  +/-  0.9108E-09  (   0.360 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8671E-06  +/-  0.1829E-08  (   0.211 %)
accumulated results Integral      = 0.3631E-06  +/-  0.1975E-08  (   0.544 %)
accumulated results Virtual       = -.6618E-09  +/-  0.9049E-09  ( 136.738 %)
accumulated results Virtual ratio = -.8643E-01  +/-  0.6298E-03  (   0.729 %)
accumulated results ABS virtual   = 0.2077E-06  +/-  0.8834E-09  (   0.425 %)
accumulated results Born          = 0.2531E-06  +/-  0.9108E-09  (   0.360 %)
accumulated results V  2          = -.6618E-09  +/-  0.9049E-09  ( 136.738 %)
accumulated results B  2          = 0.2531E-06  +/-  0.9108E-09  (   0.360 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   162346     9284  0.1261E-06  0.1022E-06  0.4861E+00
channel    2 :     1 T   394123    22852  0.3047E-06  0.7803E-07  0.7093E-01
channel    3 :     2 T   168593     9546  0.1306E-06  0.1031E-06  0.3701E+00
channel    4 :     2 T   394682    23851  0.3057E-06  0.7967E-07  0.7581E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6713193344865623E-007  +/-   1.8290673377429979E-009
 Final result:   3.6305591403071799E-007  +/-   1.9746599548657107E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    159686
   Stability unknown:                                          0
   Stable PS point:                                       159686
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 159686
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       159686
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.74429083    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.6119604    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    15.1989765    
 Time spent in Integrated_CT :    22.4297485    
 Time spent in Virtuals :    374.576294    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    27.5260468    
 Time spent in N1body_prefactor :    1.98299086    
 Time spent in Adding_alphas_pdf :    13.1115723    
 Time spent in Reweight_scale :    77.7553253    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    37.1871147    
 Time spent in Applying_cuts :    12.5769978    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    152.404861    
 Time spent in Other_tasks :    60.3649292    
 Time spent in Total :    811.471191    
Time in seconds: 830



LOG file for integration channel /P0_aa_emep/all_G1_15, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6582
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          15
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  47355
  with seed                   48
 Ranmar initialization seeds       30233       26703
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.215098D+04 0.215098D+04  1.00
 muF1, muF1_reference: 0.215098D+04 0.215098D+04  1.00
 muF2, muF2_reference: 0.215098D+04 0.215098D+04  1.00
 QES,  QES_reference:  0.215098D+04 0.215098D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   8.0105483071116257E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 8: keeping split order            1
 REAL 6: keeping split order            1
 REAL 2: keeping split order            1
 REAL 5: keeping split order            1
 REAL 1: keeping split order            1
 REAL 7: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2997242329547171E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5360238941252167E-004           OLP:   -2.5360238941252205E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.4671814660353622E-004           OLP:    7.4671814660353189E-004
  FINITE:
           OLP:   -4.5812701530167583E-003
           BORN:   0.10557035192283573     
  MOMENTA (Exyzm): 
           1   2824.7101611573707        0.0000000000000000        0.0000000000000000        2824.7101611573707        0.0000000000000000     
           2   2824.7101611573707       -0.0000000000000000       -0.0000000000000000       -2824.7101611573707        0.0000000000000000     
           3   2824.7101611573707       -1295.9629952467023       -1541.5413851660230       -1980.6861354887387        0.0000000000000000     
           4   2824.7101611573707        1295.9629952467023        1541.5413851660230        1980.6861354887387        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5360238941252167E-004           OLP:   -2.5360238941252205E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.4671814660353622E-004           OLP:    7.4671814660353189E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8629E-06  +/-  0.1830E-08  (   0.212 %)
Integral      = 0.3625E-06  +/-  0.1974E-08  (   0.545 %)
Virtual       = -.1819E-08  +/-  0.9058E-09  (  49.806 %)
Virtual ratio = -.8633E-01  +/-  0.6294E-03  (   0.729 %)
ABS virtual   = 0.2073E-06  +/-  0.8844E-09  (   0.427 %)
Born          = 0.2523E-06  +/-  0.8949E-09  (   0.355 %)
V  2          = -.1819E-08  +/-  0.9058E-09  (  49.806 %)
B  2          = 0.2523E-06  +/-  0.8949E-09  (   0.355 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8629E-06  +/-  0.1830E-08  (   0.212 %)
accumulated results Integral      = 0.3625E-06  +/-  0.1974E-08  (   0.545 %)
accumulated results Virtual       = -.1819E-08  +/-  0.9058E-09  (  49.806 %)
accumulated results Virtual ratio = -.8633E-01  +/-  0.6294E-03  (   0.729 %)
accumulated results ABS virtual   = 0.2073E-06  +/-  0.8844E-09  (   0.427 %)
accumulated results Born          = 0.2523E-06  +/-  0.8949E-09  (   0.355 %)
accumulated results V  2          = -.1819E-08  +/-  0.9058E-09  (  49.806 %)
accumulated results B  2          = 0.2523E-06  +/-  0.8949E-09  (   0.355 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   163615     9284  0.1261E-06  0.1023E-06  0.4882E+00
channel    2 :     1 T   393864    22852  0.3026E-06  0.8039E-07  0.7854E-01
channel    3 :     2 T   166975     9546  0.1279E-06  0.1013E-06  0.3877E+00
channel    4 :     2 T   395289    23851  0.3063E-06  0.7857E-07  0.6837E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6294153342431271E-007  +/-   1.8304665835153884E-009
 Final result:   3.6250012959067473E-007  +/-   1.9744083235071552E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160045
   Stability unknown:                                          0
   Stable PS point:                                       160045
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160045
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160045
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.71899271    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.5014925    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    15.1757584    
 Time spent in Integrated_CT :    22.5001221    
 Time spent in Virtuals :    374.992371    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    27.2574387    
 Time spent in N1body_prefactor :    1.97816396    
 Time spent in Adding_alphas_pdf :    13.2344007    
 Time spent in Reweight_scale :    78.0699463    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    36.8672409    
 Time spent in Applying_cuts :    12.4551315    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    151.602524    
 Time spent in Other_tasks :    60.8220215    
 Time spent in Total :    811.175659    
Time in seconds: 830



LOG file for integration channel /P0_aa_emep/all_G1_16, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6580
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          16
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  50512
  with seed                   48
 Ranmar initialization seeds       30233       29860
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.408639D+04 0.408639D+04  1.00
 muF1, muF1_reference: 0.408639D+04 0.408639D+04  1.00
 muF2, muF2_reference: 0.408639D+04 0.408639D+04  1.00
 QES,  QES_reference:  0.408639D+04 0.408639D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5234613178715798E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 8: keeping split order            1
 REAL 1: keeping split order            1
 REAL 4: keeping split order            1
 REAL 6: keeping split order            1
 REAL 7: keeping split order            1
 REAL 5: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 F
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 F
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3262032449898998E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3173817026068481E-004           OLP:   -2.3173817026068472E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8234016798979431E-004           OLP:    6.8234016798979528E-004
  FINITE:
           OLP:   -4.1174296131454872E-003
           BORN:    9.6468650177341631E-002
  MOMENTA (Exyzm): 
           1   2715.6008685298339        0.0000000000000000        0.0000000000000000        2715.6008685298339        0.0000000000000000     
           2   2715.6008685298339       -0.0000000000000000       -0.0000000000000000       -2715.6008685298339        0.0000000000000000     
           3   2715.6008685298339        1328.2519981502380        1497.3129269031895        1835.2898151241650        0.0000000000000000     
           4   2715.6008685298339       -1328.2519981502380       -1497.3129269031895       -1835.2898151241650        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3173817026068481E-004           OLP:   -2.3173817026068472E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8234016798979431E-004           OLP:    6.8234016798979528E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8603E-06  +/-  0.1691E-08  (   0.197 %)
Integral      = 0.3630E-06  +/-  0.1845E-08  (   0.508 %)
Virtual       = -.2017E-08  +/-  0.8932E-09  (  44.276 %)
Virtual ratio = -.8704E-01  +/-  0.6294E-03  (   0.723 %)
ABS virtual   = 0.2070E-06  +/-  0.8715E-09  (   0.421 %)
Born          = 0.2522E-06  +/-  0.8859E-09  (   0.351 %)
V  2          = -.2017E-08  +/-  0.8932E-09  (  44.276 %)
B  2          = 0.2522E-06  +/-  0.8859E-09  (   0.351 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8603E-06  +/-  0.1691E-08  (   0.197 %)
accumulated results Integral      = 0.3630E-06  +/-  0.1845E-08  (   0.508 %)
accumulated results Virtual       = -.2017E-08  +/-  0.8932E-09  (  44.276 %)
accumulated results Virtual ratio = -.8704E-01  +/-  0.6294E-03  (   0.723 %)
accumulated results ABS virtual   = 0.2070E-06  +/-  0.8715E-09  (   0.421 %)
accumulated results Born          = 0.2522E-06  +/-  0.8859E-09  (   0.351 %)
accumulated results V  2          = -.2017E-08  +/-  0.8932E-09  (  44.276 %)
accumulated results B  2          = 0.2522E-06  +/-  0.8859E-09  (   0.351 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   163029     9284  0.1257E-06  0.1015E-06  0.4655E+00
channel    2 :     1 T   395116    22852  0.3033E-06  0.7974E-07  0.7597E-01
channel    3 :     2 T   168378     9546  0.1284E-06  0.1020E-06  0.4200E+00
channel    4 :     2 T   393221    23851  0.3030E-06  0.7969E-07  0.7943E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6034688679560119E-007  +/-   1.6913314724707925E-009
 Final result:   3.6295596833092026E-007  +/-   1.8449915908443054E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160381
   Stability unknown:                                          0
   Stable PS point:                                       160381
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160381
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160381
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.76816583    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.4978304    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    15.0269003    
 Time spent in Integrated_CT :    22.2054138    
 Time spent in Virtuals :    375.256073    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    27.3067818    
 Time spent in N1body_prefactor :    1.97773433    
 Time spent in Adding_alphas_pdf :    12.7721710    
 Time spent in Reweight_scale :    75.8720016    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    36.4266319    
 Time spent in Applying_cuts :    12.3589582    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    150.612640    
 Time spent in Other_tasks :    59.9357910    
 Time spent in Total :    806.017090    
Time in seconds: 822



LOG file for integration channel /P0_aa_emep/all_G1_17, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6579
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          17
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  53669
  with seed                   48
 Ranmar initialization seeds       30233        2936
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.405720D+04 0.405720D+04  1.00
 muF1, muF1_reference: 0.405720D+04 0.405720D+04  1.00
 muF2, muF2_reference: 0.405720D+04 0.405720D+04  1.00
 QES,  QES_reference:  0.405720D+04 0.405720D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5285691980646802E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 8: keeping split order            1
 REAL 4: keeping split order            1
 REAL 6: keeping split order            1
 REAL 1: keeping split order            1
 REAL 5: keeping split order            1
 REAL 7: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2799524583513991E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.6425232539215693E-004           OLP:   -2.6425232539215796E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.7807629143246209E-004           OLP:    7.7807629143246025E-004
  FINITE:
           OLP:   -4.9384451296764558E-003
           BORN:   0.11000373873725133     
  MOMENTA (Exyzm): 
           1   2909.5760560694148        0.0000000000000000        0.0000000000000000        2909.5760560694148        0.0000000000000000     
           2   2909.5760560694148       -0.0000000000000000       -0.0000000000000000       -2909.5760560694148        0.0000000000000000     
           3   2909.5760560694148        1753.0108000672769        1048.5725422567407        2071.9752856936229        0.0000000000000000     
           4   2909.5760560694148       -1753.0108000672769       -1048.5725422567407       -2071.9752856936229        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.6425232539215693E-004           OLP:   -2.6425232539215796E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.7807629143246209E-004           OLP:    7.7807629143246025E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8628E-06  +/-  0.1892E-08  (   0.219 %)
Integral      = 0.3645E-06  +/-  0.2032E-08  (   0.557 %)
Virtual       = -.1520E-08  +/-  0.8968E-09  (  58.992 %)
Virtual ratio = -.8683E-01  +/-  0.6295E-03  (   0.725 %)
ABS virtual   = 0.2063E-06  +/-  0.8754E-09  (   0.424 %)
Born          = 0.2510E-06  +/-  0.8850E-09  (   0.353 %)
V  2          = -.1520E-08  +/-  0.8968E-09  (  58.992 %)
B  2          = 0.2510E-06  +/-  0.8850E-09  (   0.353 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8628E-06  +/-  0.1892E-08  (   0.219 %)
accumulated results Integral      = 0.3645E-06  +/-  0.2032E-08  (   0.557 %)
accumulated results Virtual       = -.1520E-08  +/-  0.8968E-09  (  58.992 %)
accumulated results Virtual ratio = -.8683E-01  +/-  0.6295E-03  (   0.725 %)
accumulated results ABS virtual   = 0.2063E-06  +/-  0.8754E-09  (   0.424 %)
accumulated results Born          = 0.2510E-06  +/-  0.8850E-09  (   0.353 %)
accumulated results V  2          = -.1520E-08  +/-  0.8968E-09  (  58.992 %)
accumulated results B  2          = 0.2510E-06  +/-  0.8850E-09  (   0.353 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   162513     9284  0.1255E-06  0.1016E-06  0.4763E+00
channel    2 :     1 T   394347    22852  0.3043E-06  0.8074E-07  0.7570E-01
channel    3 :     2 T   167786     9546  0.1280E-06  0.1021E-06  0.4404E+00
channel    4 :     2 T   395102    23851  0.3050E-06  0.8001E-07  0.6273E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6279755548973544E-007  +/-   1.8924678902990581E-009
 Final result:   3.6446870474305731E-007  +/-   2.0316532871973951E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160056
   Stability unknown:                                          0
   Stable PS point:                                       160056
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160056
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160056
 counters for the granny resonances
 ntot                0
 Time spent in Born :    4.10969734    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.4262009    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    15.2115850    
 Time spent in Integrated_CT :    26.3835144    
 Time spent in Virtuals :    371.589172    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    31.4008522    
 Time spent in N1body_prefactor :    1.98293591    
 Time spent in Adding_alphas_pdf :    13.0045252    
 Time spent in Reweight_scale :    76.7561874    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    37.0567017    
 Time spent in Applying_cuts :    12.3728161    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    153.509857    
 Time spent in Other_tasks :    59.9592896    
 Time spent in Total :    815.763245    
Time in seconds: 831



LOG file for integration channel /P0_aa_emep/all_G1_18, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6583
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          18
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  56826
  with seed                   48
 Ranmar initialization seeds       30233        6093
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.413789D+04 0.413789D+04  1.00
 muF1, muF1_reference: 0.413789D+04 0.413789D+04  1.00
 muF2, muF2_reference: 0.413789D+04 0.413789D+04  1.00
 QES,  QES_reference:  0.413789D+04 0.413789D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5145510405078816E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 8: keeping split order            1
 REAL 2: keeping split order            1
 REAL 7: keeping split order            1
 REAL 6: keeping split order            1
 REAL 5: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2839493286146889E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5136543868777255E-004           OLP:   -2.5136543868777136E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.4013156946955278E-004           OLP:    7.4013156946954746E-004
  FINITE:
           OLP:   -4.8292821107943622E-003
           BORN:   0.10463914746615506     
  MOMENTA (Exyzm): 
           1   2892.1798531216896        0.0000000000000000        0.0000000000000000        2892.1798531216896        0.0000000000000000     
           2   2892.1798531216896       -0.0000000000000000       -0.0000000000000000       -2892.1798531216896        0.0000000000000000     
           3   2892.1798531216896        1650.4906241187391        1247.3875920490398        2021.0416120657269        0.0000000000000000     
           4   2892.1798531216896       -1650.4906241187391       -1247.3875920490398       -2021.0416120657269        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5136543868777255E-004           OLP:   -2.5136543868777136E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.4013156946955278E-004           OLP:    7.4013156946954746E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8622E-06  +/-  0.1705E-08  (   0.198 %)
Integral      = 0.3639E-06  +/-  0.1858E-08  (   0.511 %)
Virtual       = -.6894E-09  +/-  0.8924E-09  ( 129.446 %)
Virtual ratio = -.8659E-01  +/-  0.6297E-03  (   0.727 %)
ABS virtual   = 0.2067E-06  +/-  0.8708E-09  (   0.421 %)
Born          = 0.2528E-06  +/-  0.8890E-09  (   0.352 %)
V  2          = -.6894E-09  +/-  0.8924E-09  ( 129.446 %)
B  2          = 0.2528E-06  +/-  0.8890E-09  (   0.352 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8622E-06  +/-  0.1705E-08  (   0.198 %)
accumulated results Integral      = 0.3639E-06  +/-  0.1858E-08  (   0.511 %)
accumulated results Virtual       = -.6894E-09  +/-  0.8924E-09  ( 129.446 %)
accumulated results Virtual ratio = -.8659E-01  +/-  0.6297E-03  (   0.727 %)
accumulated results ABS virtual   = 0.2067E-06  +/-  0.8708E-09  (   0.421 %)
accumulated results Born          = 0.2528E-06  +/-  0.8890E-09  (   0.352 %)
accumulated results V  2          = -.6894E-09  +/-  0.8924E-09  ( 129.446 %)
accumulated results B  2          = 0.2528E-06  +/-  0.8890E-09  (   0.352 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6    7                                8
channel    1 :     1 T   162655     9284  0.1266E-06  0.1026E-06  0.4774E+00
channel    2 :     1 T   394318    22852  0.3029E-06  0.7990E-07  0.7596E-01
channel    3 :     2 T   167728     9546  0.1290E-06  0.1024E-06  0.4035E+00
channel    4 :     2 T   395042    23851  0.3038E-06  0.7896E-07  0.7821E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6223286093973124E-007  +/-   1.7048870869121426E-009
 Final result:   3.6388665272846304E-007  +/-   1.8580444028829142E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160337
   Stability unknown:                                          0
   Stable PS point:                                       160337
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160337
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160337
 counters for the granny resonances
 ntot                0
 Time spent in Born :    4.06756210    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.2477627    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.9670143    
 Time spent in Integrated_CT :    26.1098633    
 Time spent in Virtuals :    374.062866    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.7611504    
 Time spent in N1body_prefactor :    1.98629010    
 Time spent in Adding_alphas_pdf :    13.0704060    
 Time spent in Reweight_scale :    76.6164932    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    37.1021271    
 Time spent in Applying_cuts :    12.4067116    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    151.248230    
 Time spent in Other_tasks :    59.8405762    
 Time spent in Total :    814.487061    
Time in seconds: 831



LOG file for integration channel /P0_aa_emep/all_G1_19, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6584
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          19
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  59983
  with seed                   48
 Ranmar initialization seeds       30233        9250
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.407479D+04 0.407479D+04  1.00
 muF1, muF1_reference: 0.407479D+04 0.407479D+04  1.00
 muF2, muF2_reference: 0.407479D+04 0.407479D+04  1.00
 QES,  QES_reference:  0.407479D+04 0.407479D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5254864770281218E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 8: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 4: keeping split order            1
 REAL 6: keeping split order            1
 REAL 3: keeping split order            1
 REAL 5: keeping split order            1
 REAL 7: keeping split order            1
 REAL 1: keeping split order            1
 REAL 9: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2759053492644443E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5286402138512273E-004           OLP:   -2.5286402138512208E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.4454406296730594E-004           OLP:    7.4454406296730453E-004
  FINITE:
           OLP:   -4.9661452294924632E-003
           BORN:   0.10526298189891108     
  MOMENTA (Exyzm): 
           1   2927.3170578013119        0.0000000000000000        0.0000000000000000        2927.3170578013119        0.0000000000000000     
           2   2927.3170578013119       -0.0000000000000000       -0.0000000000000000       -2927.3170578013119        0.0000000000000000     
           3   2927.3170578013119       -1397.8654627397445       -1552.8458343190523       -2050.3236622084564        0.0000000000000000     
           4   2927.3170578013119        1397.8654627397445        1552.8458343190523        2050.3236622084564        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5286402138512273E-004           OLP:   -2.5286402138512208E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.4454406296730594E-004           OLP:    7.4454406296730453E-004
ABS integral  = 0.8657E-06  +/-  0.1770E-08  (   0.204 %)
Integral      = 0.3615E-06  +/-  0.1920E-08  (   0.531 %)
Virtual       = -.1225E-08  +/-  0.8971E-09  (  73.233 %)
Virtual ratio = -.8657E-01  +/-  0.6287E-03  (   0.726 %)
ABS virtual   = 0.2079E-06  +/-  0.8753E-09  (   0.421 %)
Born          = 0.2523E-06  +/-  0.8852E-09  (   0.351 %)
V  2          = -.1225E-08  +/-  0.8971E-09  (  73.233 %)
B  2          = 0.2523E-06  +/-  0.8852E-09  (   0.351 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8657E-06  +/-  0.1770E-08  (   0.204 %)
accumulated results Integral      = 0.3615E-06  +/-  0.1920E-08  (   0.531 %)
accumulated results Virtual       = -.1225E-08  +/-  0.8971E-09  (  73.233 %)
accumulated results Virtual ratio = -.8657E-01  +/-  0.6287E-03  (   0.726 %)
accumulated results ABS virtual   = 0.2079E-06  +/-  0.8753E-09  (   0.421 %)
accumulated results Born          = 0.2523E-06  +/-  0.8852E-09  (   0.351 %)
accumulated results V  2          = -.1225E-08  +/-  0.8971E-09  (  73.233 %)
accumulated results B  2          = 0.2523E-06  +/-  0.8852E-09  (   0.351 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2    3                               4   5        6    7                                8
channel    1 :     1 T   162467     9284  0.1260E-06  0.1028E-06  0.4888E+00
channel    2 :     1 T   394596    22852  0.3064E-06  0.7837E-07  0.7249E-01
channel    3 :     2 T   167152     9546  0.1273E-06  0.1017E-06  0.4297E+00
channel    4 :     2 T   395530    23851  0.3060E-06  0.7868E-07  0.7507E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6571080779163398E-007  +/-   1.7698690086046095E-009
 Final result:   3.6150328844223655E-007  +/-   1.9196448484111785E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160642
   Stability unknown:                                          0
   Stable PS point:                                       160642
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160642
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160642
 counters for the granny resonances
 ntot                0
 Time spent in Born :    4.10000277    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.3236418    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    15.0609236    
 Time spent in Integrated_CT :    25.4902954    
 Time spent in Virtuals :    374.222473    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    29.6474838    
 Time spent in N1body_prefactor :    1.96753478    
 Time spent in Adding_alphas_pdf :    13.0053768    
 Time spent in Reweight_scale :    77.0371857    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    36.6064987    
 Time spent in Applying_cuts :    12.4355211    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    151.593887    
 Time spent in Other_tasks :    60.6331787    
 Time spent in Total :    814.124023    
Time in seconds: 832



LOG file for integration channel /P0_aa_emep/all_G1_20, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6573
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          20
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  63140
  with seed                   48
 Ranmar initialization seeds       30233       12407
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.286079D+04 0.286079D+04  1.00
 muF1, muF1_reference: 0.286079D+04 0.286079D+04  1.00
 muF2, muF2_reference: 0.286079D+04 0.286079D+04  1.00
 QES,  QES_reference:  0.286079D+04 0.286079D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7864281979902833E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 8: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 7: keeping split order            1
 REAL 2: keeping split order            1
 REAL 4: keeping split order            1
 REAL 6: keeping split order            1
 REAL 5: keeping split order            1
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3175413480477805E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3065620485792816E-004           OLP:   -2.3065620485792889E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.7915438097056636E-004           OLP:    6.7915438097056397E-004
  FINITE:
           OLP:   -4.2404943976597168E-003
           BORN:    9.6018246422858264E-002
  MOMENTA (Exyzm): 
           1   2750.7340894487420        0.0000000000000000        0.0000000000000000        2750.7340894487420        0.0000000000000000     
           2   2750.7340894487420       -0.0000000000000000       -0.0000000000000000       -2750.7340894487420        0.0000000000000000     
           3   2750.7340894487420        1418.8423861811625        1453.0806827813467        1855.2576218301435        0.0000000000000000     
           4   2750.7340894487420       -1418.8423861811625       -1453.0806827813467       -1855.2576218301435        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3065620485792816E-004           OLP:   -2.3065620485792889E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.7915438097056636E-004           OLP:    6.7915438097056397E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8633E-06  +/-  0.1778E-08  (   0.206 %)
Integral      = 0.3649E-06  +/-  0.1925E-08  (   0.528 %)
Virtual       = -.1434E-08  +/-  0.9111E-09  (  63.530 %)
Virtual ratio = -.8690E-01  +/-  0.6284E-03  (   0.723 %)
ABS virtual   = 0.2077E-06  +/-  0.8897E-09  (   0.428 %)
Born          = 0.2535E-06  +/-  0.9007E-09  (   0.355 %)
V  2          = -.1434E-08  +/-  0.9111E-09  (  63.530 %)
B  2          = 0.2535E-06  +/-  0.9007E-09  (   0.355 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8633E-06  +/-  0.1778E-08  (   0.206 %)
accumulated results Integral      = 0.3649E-06  +/-  0.1925E-08  (   0.528 %)
accumulated results Virtual       = -.1434E-08  +/-  0.9111E-09  (  63.530 %)
accumulated results Virtual ratio = -.8690E-01  +/-  0.6284E-03  (   0.723 %)
accumulated results ABS virtual   = 0.2077E-06  +/-  0.8897E-09  (   0.428 %)
accumulated results Born          = 0.2535E-06  +/-  0.9007E-09  (   0.355 %)
accumulated results V  2          = -.1434E-08  +/-  0.9111E-09  (  63.530 %)
accumulated results B  2          = 0.2535E-06  +/-  0.9007E-09  (   0.355 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   162567     9284  0.1262E-06  0.1021E-06  0.4806E+00
channel    2 :     1 T   394213    22852  0.3027E-06  0.8006E-07  0.7357E-01
channel    3 :     2 T   168076     9546  0.1290E-06  0.1023E-06  0.4009E+00
channel    4 :     2 T   394891    23851  0.3054E-06  0.8048E-07  0.7739E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6328784581452585E-007  +/-   1.7778557925079684E-009
 Final result:   3.6492803696256850E-007  +/-   1.9254631021928242E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160267
   Stability unknown:                                          0
   Stable PS point:                                       160267
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160267
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160267
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.71044326    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.3336201    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.8664703    
 Time spent in Integrated_CT :    22.0401611    
 Time spent in Virtuals :    374.455963    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    26.6419849    
 Time spent in N1body_prefactor :    1.98567510    
 Time spent in Adding_alphas_pdf :    12.9913654    
 Time spent in Reweight_scale :    77.0304260    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    37.1685791    
 Time spent in Applying_cuts :    12.4572124    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    147.959763    
 Time spent in Other_tasks :    59.7688599    
 Time spent in Total :    803.410583    
Time in seconds: 818



LOG file for integration channel /P0_aa_emep/all_G1_21, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6592
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          21
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  66297
  with seed                   48
 Ranmar initialization seeds       30233       15564
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.291427D+04 0.291427D+04  1.00
 muF1, muF1_reference: 0.291427D+04 0.291427D+04  1.00
 muF2, muF2_reference: 0.291427D+04 0.291427D+04  1.00
 QES,  QES_reference:  0.291427D+04 0.291427D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7723071041564090E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 7: keeping split order            1
 REAL 2: keeping split order            1
 REAL 6: keeping split order            1
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 5: keeping split order            1
 REAL 8: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2832920922428906E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4831760080349573E-004           OLP:   -2.4831760080349535E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.3115738014362629E-004           OLP:    7.3115738014362574E-004
  FINITE:
           OLP:   -4.8283262474187712E-003
           BORN:   0.10337038450697228     
  MOMENTA (Exyzm): 
           1   2895.0319821378780        0.0000000000000000        0.0000000000000000        2895.0319821378780        0.0000000000000000     
           2   2895.0319821378780       -0.0000000000000000       -0.0000000000000000       -2895.0319821378780        0.0000000000000000     
           3   2895.0319821378780       -2064.9439477381252       -252.18099953212578       -2013.3607261928587        0.0000000000000000     
           4   2895.0319821378780        2064.9439477381252        252.18099953212578        2013.3607261928587        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4831760080349573E-004           OLP:   -2.4831760080349535E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.3115738014362629E-004           OLP:    7.3115738014362574E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8599E-06  +/-  0.1661E-08  (   0.193 %)
Integral      = 0.3665E-06  +/-  0.1817E-08  (   0.496 %)
Virtual       = -.1166E-08  +/-  0.8949E-09  (  76.761 %)
Virtual ratio = -.8680E-01  +/-  0.6314E-03  (   0.727 %)
ABS virtual   = 0.2059E-06  +/-  0.8735E-09  (   0.424 %)
Born          = 0.2505E-06  +/-  0.8912E-09  (   0.356 %)
V  2          = -.1166E-08  +/-  0.8949E-09  (  76.761 %)
B  2          = 0.2505E-06  +/-  0.8912E-09  (   0.356 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8599E-06  +/-  0.1661E-08  (   0.193 %)
accumulated results Integral      = 0.3665E-06  +/-  0.1817E-08  (   0.496 %)
accumulated results Virtual       = -.1166E-08  +/-  0.8949E-09  (  76.761 %)
accumulated results Virtual ratio = -.8680E-01  +/-  0.6314E-03  (   0.727 %)
accumulated results ABS virtual   = 0.2059E-06  +/-  0.8735E-09  (   0.424 %)
accumulated results Born          = 0.2505E-06  +/-  0.8912E-09  (   0.356 %)
accumulated results V  2          = -.1166E-08  +/-  0.8949E-09  (  76.761 %)
accumulated results B  2          = 0.2505E-06  +/-  0.8912E-09  (   0.356 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   162832     9284  0.1263E-06  0.1031E-06  0.4881E+00
channel    2 :     1 T   395454    22852  0.3032E-06  0.7950E-07  0.7864E-01
channel    3 :     2 T   167400     9546  0.1273E-06  0.1017E-06  0.4357E+00
channel    4 :     2 T   394062    23851  0.3031E-06  0.8229E-07  0.7852E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5992948497053134E-007  +/-   1.6612576977970733E-009
 Final result:   3.6654279121805488E-007  +/-   1.8166427636398899E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    159532
   Stability unknown:                                          0
   Stable PS point:                                       159532
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 159532
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       159532
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.98378277    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.2107506    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.9949942    
 Time spent in Integrated_CT :    26.0410156    
 Time spent in Virtuals :    370.312927    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.6192856    
 Time spent in N1body_prefactor :    1.97347832    
 Time spent in Adding_alphas_pdf :    13.0136261    
 Time spent in Reweight_scale :    76.6134415    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    36.7936020    
 Time spent in Applying_cuts :    12.3349047    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    150.574799    
 Time spent in Other_tasks :    59.4846802    
 Time spent in Total :    808.951233    
Time in seconds: 827



LOG file for integration channel /P0_aa_emep/all_G1_22, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6590
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          22
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  69454
  with seed                   48
 Ranmar initialization seeds       30233       18721
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.331471D+04 0.331471D+04  1.00
 muF1, muF1_reference: 0.331471D+04 0.331471D+04  1.00
 muF2, muF2_reference: 0.331471D+04 0.331471D+04  1.00
 QES,  QES_reference:  0.331471D+04 0.331471D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6755520691095258E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 8: keeping split order            1
 REAL 6: keeping split order            1
 REAL 4: keeping split order            1
 REAL 5: keeping split order            1
 REAL 2: keeping split order            1
 REAL 7: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3167042115205985E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3091389021847927E-004           OLP:   -2.3091389021847919E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.7991312119885573E-004           OLP:    6.7991312119885519E-004
  FINITE:
           OLP:   -4.2535756392601178E-003
           BORN:    9.6125516446069648E-002
  MOMENTA (Exyzm): 
           1   2754.1580526184898        0.0000000000000000        0.0000000000000000        2754.1580526184898        0.0000000000000000     
           2   2754.1580526184898       -0.0000000000000000       -0.0000000000000000       -2754.1580526184898        0.0000000000000000     
           3   2754.1580526184898       -1777.8298458542745       -985.28932042481563       -1858.4704929187988        0.0000000000000000     
           4   2754.1580526184898        1777.8298458542745        985.28932042481563        1858.4704929187988        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3091389021847927E-004           OLP:   -2.3091389021847919E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.7991312119885573E-004           OLP:    6.7991312119885519E-004
 REAL 1: keeping split order            1
 REAL 9: keeping split order            1
ABS integral  = 0.8610E-06  +/-  0.1724E-08  (   0.200 %)
Integral      = 0.3623E-06  +/-  0.1876E-08  (   0.518 %)
Virtual       = -.3071E-08  +/-  0.8982E-09  (  29.248 %)
Virtual ratio = -.8789E-01  +/-  0.6285E-03  (   0.715 %)
ABS virtual   = 0.2078E-06  +/-  0.8765E-09  (   0.422 %)
Born          = 0.2532E-06  +/-  0.8925E-09  (   0.352 %)
V  2          = -.3071E-08  +/-  0.8982E-09  (  29.248 %)
B  2          = 0.2532E-06  +/-  0.8925E-09  (   0.352 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8610E-06  +/-  0.1724E-08  (   0.200 %)
accumulated results Integral      = 0.3623E-06  +/-  0.1876E-08  (   0.518 %)
accumulated results Virtual       = -.3071E-08  +/-  0.8982E-09  (  29.248 %)
accumulated results Virtual ratio = -.8789E-01  +/-  0.6285E-03  (   0.715 %)
accumulated results ABS virtual   = 0.2078E-06  +/-  0.8765E-09  (   0.422 %)
accumulated results Born          = 0.2532E-06  +/-  0.8925E-09  (   0.352 %)
accumulated results V  2          = -.3071E-08  +/-  0.8982E-09  (  29.248 %)
accumulated results B  2          = 0.2532E-06  +/-  0.8925E-09  (   0.352 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   162900     9284  0.1253E-06  0.1019E-06  0.4952E+00
channel    2 :     1 T   393789    22852  0.3027E-06  0.7830E-07  0.7548E-01
channel    3 :     2 T   168385     9546  0.1286E-06  0.1020E-06  0.4127E+00
channel    4 :     2 T   394662    23851  0.3044E-06  0.8015E-07  0.7687E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6100450494887122E-007  +/-   1.7242986476080262E-009
 Final result:   3.6229198993783394E-007  +/-   1.8756435262446941E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160711
   Stability unknown:                                          0
   Stable PS point:                                       160711
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160711
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160711
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.88245010    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    11.7733049    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.5063753    
 Time spent in Integrated_CT :    25.3846741    
 Time spent in Virtuals :    359.514282    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.0205383    
 Time spent in N1body_prefactor :    1.92397988    
 Time spent in Adding_alphas_pdf :    12.3418903    
 Time spent in Reweight_scale :    73.4691925    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    35.5080185    
 Time spent in Applying_cuts :    11.9195204    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    148.981415    
 Time spent in Other_tasks :    56.7294922    
 Time spent in Total :    785.955078    
Time in seconds: 795



LOG file for integration channel /P0_aa_emep/all_G1_23, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6572
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          23
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  72611
  with seed                   48
 Ranmar initialization seeds       30233       21878
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.351554D+04 0.351554D+04  1.00
 muF1, muF1_reference: 0.351554D+04 0.351554D+04  1.00
 muF2, muF2_reference: 0.351554D+04 0.351554D+04  1.00
 QES,  QES_reference:  0.351554D+04 0.351554D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6321772456442061E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 6: keeping split order            1
 REAL 8: keeping split order            1
 REAL 4: keeping split order            1
 REAL 7: keeping split order            1
 REAL 5: keeping split order            1
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2777199419990085E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4520148754124713E-004           OLP:   -2.4520148754124654E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.2198215776033889E-004           OLP:    7.2198215776033857E-004
  FINITE:
           OLP:   -4.9042993845578638E-003
           BORN:   0.10207319967173052     
  MOMENTA (Exyzm): 
           1   2919.3468066046962        0.0000000000000000        0.0000000000000000        2919.3468066046962        0.0000000000000000     
           2   2919.3468066046962       -0.0000000000000000       -0.0000000000000000       -2919.3468066046962        0.0000000000000000     
           3   2919.3468066046962        2097.0258950017555        210.76095651607156        2020.0613832588244        0.0000000000000000     
           4   2919.3468066046962       -2097.0258950017555       -210.76095651607156       -2020.0613832588244        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4520148754124713E-004           OLP:   -2.4520148754124654E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.2198215776033889E-004           OLP:    7.2198215776033857E-004
 REAL 9: keeping split order            1
 Error #15 in genps_fks.f  -1.0132789611816406E-006           4
ABS integral  = 0.8631E-06  +/-  0.1695E-08  (   0.196 %)
Integral      = 0.3666E-06  +/-  0.1849E-08  (   0.504 %)
Virtual       = -.1260E-08  +/-  0.9053E-09  (  71.875 %)
Virtual ratio = -.8649E-01  +/-  0.6295E-03  (   0.728 %)
ABS virtual   = 0.2081E-06  +/-  0.8837E-09  (   0.425 %)
Born          = 0.2525E-06  +/-  0.8939E-09  (   0.354 %)
V  2          = -.1260E-08  +/-  0.9053E-09  (  71.875 %)
B  2          = 0.2525E-06  +/-  0.8939E-09  (   0.354 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8631E-06  +/-  0.1695E-08  (   0.196 %)
accumulated results Integral      = 0.3666E-06  +/-  0.1849E-08  (   0.504 %)
accumulated results Virtual       = -.1260E-08  +/-  0.9053E-09  (  71.875 %)
accumulated results Virtual ratio = -.8649E-01  +/-  0.6295E-03  (   0.728 %)
accumulated results ABS virtual   = 0.2081E-06  +/-  0.8837E-09  (   0.425 %)
accumulated results Born          = 0.2525E-06  +/-  0.8939E-09  (   0.354 %)
accumulated results V  2          = -.1260E-08  +/-  0.9053E-09  (  71.875 %)
accumulated results B  2          = 0.2525E-06  +/-  0.8939E-09  (   0.354 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6    7                                8
channel    1 :     1 T   162762     9284  0.1260E-06  0.1023E-06  0.4847E+00
channel    2 :     1 T   394103    22852  0.3038E-06  0.8075E-07  0.7767E-01
channel    3 :     2 T   168034     9546  0.1282E-06  0.1020E-06  0.4323E+00
channel    4 :     2 T   394848    23851  0.3051E-06  0.8147E-07  0.7850E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6313517110061210E-007  +/-   1.6946811159112324E-009
 Final result:   3.6660723313917937E-007  +/-   1.8485801580774926E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160340
   Stability unknown:                                          0
   Stable PS point:                                       160340
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160340
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160340
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.96077299    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    11.7936020    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.5163937    
 Time spent in Integrated_CT :    25.5390015    
 Time spent in Virtuals :    358.198486    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.1028328    
 Time spent in N1body_prefactor :    1.92474890    
 Time spent in Adding_alphas_pdf :    12.3707094    
 Time spent in Reweight_scale :    74.1829376    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    35.5309067    
 Time spent in Applying_cuts :    11.9287119    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    149.036606    
 Time spent in Other_tasks :    56.9436646    
 Time spent in Total :    786.029358    
Time in seconds: 796



LOG file for integration channel /P0_aa_emep/all_G1_24, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6589
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          24
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  75768
  with seed                   48
 Ranmar initialization seeds       30233       25035
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.276441D+04 0.276441D+04  1.00
 muF1, muF1_reference: 0.276441D+04 0.276441D+04  1.00
 muF2, muF2_reference: 0.276441D+04 0.276441D+04  1.00
 QES,  QES_reference:  0.276441D+04 0.276441D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.8126912532842402E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 8: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 5: keeping split order            1
 REAL 2: keeping split order            1
 REAL 4: keeping split order            1
 REAL 6: keeping split order            1
 REAL 7: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2730174796968292E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.7236763948255673E-004           OLP:   -2.7236763948255624E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    8.0197138292086164E-004           OLP:    8.0197138292086067E-004
  FINITE:
           OLP:   -5.0819672608659796E-003
           BORN:   0.11338200566317626     
  MOMENTA (Exyzm): 
           1   2940.0545427536640        0.0000000000000000        0.0000000000000000        2940.0545427536640        0.0000000000000000     
           2   2940.0545427536640       -0.0000000000000000       -0.0000000000000000       -2940.0545427536640        0.0000000000000000     
           3   2940.0545427536640       -1630.3295108054294       -1227.2270747444120       -2116.5680021151361        0.0000000000000000     
           4   2940.0545427536640        1630.3295108054294        1227.2270747444120        2116.5680021151361        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.7236763948255673E-004           OLP:   -2.7236763948255624E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    8.0197138292086164E-004           OLP:    8.0197138292086067E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8632E-06  +/-  0.1732E-08  (   0.201 %)
Integral      = 0.3672E-06  +/-  0.1883E-08  (   0.513 %)
Virtual       = -.6676E-09  +/-  0.9021E-09  ( 135.123 %)
Virtual ratio = -.8733E-01  +/-  0.6309E-03  (   0.722 %)
ABS virtual   = 0.2067E-06  +/-  0.8807E-09  (   0.426 %)
Born          = 0.2513E-06  +/-  0.8842E-09  (   0.352 %)
V  2          = -.6676E-09  +/-  0.9021E-09  ( 135.123 %)
B  2          = 0.2513E-06  +/-  0.8842E-09  (   0.352 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8632E-06  +/-  0.1732E-08  (   0.201 %)
accumulated results Integral      = 0.3672E-06  +/-  0.1883E-08  (   0.513 %)
accumulated results Virtual       = -.6676E-09  +/-  0.9021E-09  ( 135.123 %)
accumulated results Virtual ratio = -.8733E-01  +/-  0.6309E-03  (   0.722 %)
accumulated results ABS virtual   = 0.2067E-06  +/-  0.8807E-09  (   0.426 %)
accumulated results Born          = 0.2513E-06  +/-  0.8842E-09  (   0.352 %)
accumulated results V  2          = -.6676E-09  +/-  0.9021E-09  ( 135.123 %)
accumulated results B  2          = 0.2513E-06  +/-  0.8842E-09  (   0.352 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2    3                               4   5        6     7                               8
channel    1 :     1 T   162358     9284  0.1263E-06  0.1026E-06  0.4657E+00
channel    2 :     1 T   393731    22852  0.3029E-06  0.7959E-07  0.7630E-01
channel    3 :     2 T   167988     9546  0.1276E-06  0.1013E-06  0.4179E+00
channel    4 :     2 T   395669    23851  0.3064E-06  0.8367E-07  0.7690E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6318223701953035E-007  +/-   1.7319778591637120E-009
 Final result:   3.6717619186070055E-007  +/-   1.8827510553303724E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    159479
   Stability unknown:                                          0
   Stable PS point:                                       159479
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 159479
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       159479
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.91439509    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    11.9734707    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.7767496    
 Time spent in Integrated_CT :    25.8143921    
 Time spent in Virtuals :    358.130768    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.7701149    
 Time spent in N1body_prefactor :    1.95155096    
 Time spent in Adding_alphas_pdf :    13.2386160    
 Time spent in Reweight_scale :    77.2532730    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    35.4621048    
 Time spent in Applying_cuts :    11.9070072    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    150.977234    
 Time spent in Other_tasks :    57.6721191    
 Time spent in Total :    793.841736    
Time in seconds: 807



LOG file for integration channel /P0_aa_emep/all_G1_25, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6562
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          25
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  78925
  with seed                   48
 Ranmar initialization seeds       30233       28192
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.395573D+04 0.395573D+04  1.00
 muF1, muF1_reference: 0.395573D+04 0.395573D+04  1.00
 muF2, muF2_reference: 0.395573D+04 0.395573D+04  1.00
 QES,  QES_reference:  0.395573D+04 0.395573D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5466768274451895E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 8: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 7: keeping split order            1
 REAL 6: keeping split order            1
 REAL 5: keeping split order            1
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2921745631612175E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5079199531816702E-004           OLP:   -2.5079199531816707E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.3844309732571409E-004           OLP:    7.3844309732571463E-004
  FINITE:
           OLP:   -4.6946059290768460E-003
           BORN:   0.10440043276604000     
  MOMENTA (Exyzm): 
           1   2856.7652830655761        0.0000000000000000        0.0000000000000000        2856.7652830655761        0.0000000000000000     
           2   2856.7652830655761       -0.0000000000000000       -0.0000000000000000       -2856.7652830655761        0.0000000000000000     
           3   2856.7652830655761        2039.7661812834324        149.57637484969956        1994.5146568295672        0.0000000000000000     
           4   2856.7652830655761       -2039.7661812834324       -149.57637484969956       -1994.5146568295672        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5079199531816702E-004           OLP:   -2.5079199531816707E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.3844309732571409E-004           OLP:    7.3844309732571463E-004
 REAL 9: keeping split order            1
 Error #15 in genps_fks.f  -1.0002404451370239E-006           4
ABS integral  = 0.8650E-06  +/-  0.1968E-08  (   0.228 %)
Integral      = 0.3659E-06  +/-  0.2103E-08  (   0.575 %)
Virtual       = -.1064E-08  +/-  0.9112E-09  (  85.659 %)
Virtual ratio = -.8698E-01  +/-  0.6277E-03  (   0.722 %)
ABS virtual   = 0.2082E-06  +/-  0.8897E-09  (   0.427 %)
Born          = 0.2530E-06  +/-  0.8868E-09  (   0.351 %)
V  2          = -.1064E-08  +/-  0.9112E-09  (  85.659 %)
B  2          = 0.2530E-06  +/-  0.8868E-09  (   0.351 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8650E-06  +/-  0.1968E-08  (   0.228 %)
accumulated results Integral      = 0.3659E-06  +/-  0.2103E-08  (   0.575 %)
accumulated results Virtual       = -.1064E-08  +/-  0.9112E-09  (  85.659 %)
accumulated results Virtual ratio = -.8698E-01  +/-  0.6277E-03  (   0.722 %)
accumulated results ABS virtual   = 0.2082E-06  +/-  0.8897E-09  (   0.427 %)
accumulated results Born          = 0.2530E-06  +/-  0.8868E-09  (   0.351 %)
accumulated results V  2          = -.1064E-08  +/-  0.9112E-09  (  85.659 %)
accumulated results B  2          = 0.2530E-06  +/-  0.8868E-09  (   0.351 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   162618     9284  0.1255E-06  0.1019E-06  0.4846E+00
channel    2 :     1 T   394557    22852  0.3038E-06  0.8075E-07  0.6950E-01
channel    3 :     2 T   167675     9546  0.1278E-06  0.1023E-06  0.4270E+00
channel    4 :     2 T   394890    23851  0.3078E-06  0.8089E-07  0.6513E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6499316786532247E-007  +/-   1.9680229810336619E-009
 Final result:   3.6585724696018605E-007  +/-   2.1028021910544976E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    160918
   Stability unknown:                                          0
   Stable PS point:                                       160918
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 160918
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       160918
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.83092213    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    11.9309626    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.6693172    
 Time spent in Integrated_CT :    25.6304932    
 Time spent in Virtuals :    359.644470    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.6378078    
 Time spent in N1body_prefactor :    1.97818148    
 Time spent in Adding_alphas_pdf :    12.2494040    
 Time spent in Reweight_scale :    74.0058441    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    35.4386253    
 Time spent in Applying_cuts :    11.9145107    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    149.901474    
 Time spent in Other_tasks :    57.0800171    
 Time spent in Total :    788.911987    
Time in seconds: 799



LOG file for integration channel /P0_aa_emep/all_G1_26, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6563
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1201246
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9647594554187600E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          26
 Weight multiplier:   3.8461538461538464E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1201246           1
 imode is           -1
channel    1 :     1 F        0     9284  0.3245E-05  0.0000E+00  0.5092E+00
channel    2 :     1 F        0    22852  0.7865E-05  0.0000E+00  0.8046E-01
channel    3 :     2 F        0     9546  0.3347E-05  0.0000E+00  0.4198E+00
channel    4 :     2 F        0    23851  0.7873E-05  0.0000E+00  0.7742E-01
 ------- iteration           1
 Update # PS points (even_rn):      1201246  -->      1119744
Using random seed offsets:     0 ,      7 ,  82082
  with seed                   48
 Ranmar initialization seeds       30233        1268
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411990D+04 0.411990D+04  1.00
 muF1, muF1_reference: 0.411990D+04 0.411990D+04  1.00
 muF2, muF2_reference: 0.411990D+04 0.411990D+04  1.00
 QES,  QES_reference:  0.411990D+04 0.411990D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5176475158704265E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 8: keeping split order            1
 REAL 6: keeping split order            1
 REAL 2: keeping split order            1
 REAL 7: keeping split order            1
 REAL 5: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2854067967909039E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5346681987651611E-004           OLP:   -2.5346681987651644E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.4631896963640854E-004           OLP:    7.4631896963640756E-004
  FINITE:
           OLP:   -4.8130379288550337E-003
           BORN:   0.10551391663585252     
  MOMENTA (Exyzm): 
           1   2885.8668974223892        0.0000000000000000        0.0000000000000000        2885.8668974223892        0.0000000000000000     
           2   2885.8668974223892       -0.0000000000000000       -0.0000000000000000       -2885.8668974223892        0.0000000000000000     
           3   2885.8668974223892       -2003.0265296480884       -472.19553427946340       -2023.1519588431299        0.0000000000000000     
           4   2885.8668974223892        2003.0265296480884        472.19553427946340        2023.1519588431299        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5346681987651611E-004           OLP:   -2.5346681987651644E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.4631896963640854E-004           OLP:    7.4631896963640756E-004
 REAL 9: keeping split order            1
ABS integral  = 0.8622E-06  +/-  0.1788E-08  (   0.207 %)
Integral      = 0.3624E-06  +/-  0.1935E-08  (   0.534 %)
Virtual       = -.2664E-08  +/-  0.9049E-09  (  33.971 %)
Virtual ratio = -.8738E-01  +/-  0.6296E-03  (   0.721 %)
ABS virtual   = 0.2071E-06  +/-  0.8835E-09  (   0.427 %)
Born          = 0.2517E-06  +/-  0.8828E-09  (   0.351 %)
V  2          = -.2664E-08  +/-  0.9049E-09  (  33.971 %)
B  2          = 0.2517E-06  +/-  0.8828E-09  (   0.351 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8622E-06  +/-  0.1788E-08  (   0.207 %)
accumulated results Integral      = 0.3624E-06  +/-  0.1935E-08  (   0.534 %)
accumulated results Virtual       = -.2664E-08  +/-  0.9049E-09  (  33.971 %)
accumulated results Virtual ratio = -.8738E-01  +/-  0.6296E-03  (   0.721 %)
accumulated results ABS virtual   = 0.2071E-06  +/-  0.8835E-09  (   0.427 %)
accumulated results Born          = 0.2517E-06  +/-  0.8828E-09  (   0.351 %)
accumulated results V  2          = -.2664E-08  +/-  0.9049E-09  (  33.971 %)
accumulated results B  2          = 0.2517E-06  +/-  0.8828E-09  (   0.351 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   162724     9284  0.1267E-06  0.1023E-06  0.4190E+00
channel    2 :     1 T   393773    22852  0.3032E-06  0.8030E-07  0.7907E-01
channel    3 :     2 T   167556     9546  0.1275E-06  0.1012E-06  0.4280E+00
channel    4 :     2 T   395698    23851  0.3048E-06  0.7863E-07  0.7182E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6218229043272235E-007  +/-   1.7880007123154159E-009
 Final result:   3.6240550650457528E-007  +/-   1.9348174069659222E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    159708
   Stability unknown:                                          0
   Stable PS point:                                       159708
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 159708
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       159708
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.79517651    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.54028034    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    9.48338985    
 Time spent in Integrated_CT :    15.9739838    
 Time spent in Virtuals :    225.109863    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    19.1999550    
 Time spent in N1body_prefactor :    1.42414212    
 Time spent in Adding_alphas_pdf :    8.56257153    
 Time spent in Reweight_scale :    54.0942230    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    23.7106323    
 Time spent in Applying_cuts :    9.12431335    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    98.7173843    
 Time spent in Other_tasks :    41.8890686    
 Time spent in Total :    517.625000    
Time in seconds: 528